PMID-sentid	Pub_year	Sent_text	comp_official_name	comp_offset	protein_name	organism	prot_offset
33267260-5	2019	Moreover, the cycle"s COP and exergy efficiency with CaCl2-LiNO3-KNO3(15.5:5:1)/H2O were approximately 0.04 and 0.06 higher than those with LiBr/H2O, respectively.	Calcium Chloride	53-58	caspase recruitment domain family member 16	Homo sapiens	22-25
31210236-0	2019	Low-cost high-performance hydrogen evolution electrocatalysts based on Pt-CoP polyhedra with low Pt loading in both alkaline and neutral media.	Hydrogen	26-34	caspase recruitment domain family member 16	Homo sapiens	74-77
31210236-0	2019	Low-cost high-performance hydrogen evolution electrocatalysts based on Pt-CoP polyhedra with low Pt loading in both alkaline and neutral media.	polyhedra	78-87	caspase recruitment domain family member 16	Homo sapiens	74-77
31210236-0	2019	Low-cost high-performance hydrogen evolution electrocatalysts based on Pt-CoP polyhedra with low Pt loading in both alkaline and neutral media.	Platinum	71-73	caspase recruitment domain family member 16	Homo sapiens	74-77
31210236-4	2019	Herein, yolk-shell Pt-CoP polyhedra were prepared to realize low Pt loading on low-cost CoP polyhedral substrates via low-temperature calcination and phosphorization of ZIF-67 combined with a subsequent microwave-assisted platinum reduction process.	polyhedra	26-35	caspase recruitment domain family member 16	Homo sapiens	22-25
31210236-4	2019	Herein, yolk-shell Pt-CoP polyhedra were prepared to realize low Pt loading on low-cost CoP polyhedral substrates via low-temperature calcination and phosphorization of ZIF-67 combined with a subsequent microwave-assisted platinum reduction process.	polyhedra	26-35	caspase recruitment domain family member 16	Homo sapiens	88-91
33267260-5	2019	Moreover, the cycle"s COP and exergy efficiency with CaCl2-LiNO3-KNO3(15.5:5:1)/H2O were approximately 0.04 and 0.06 higher than those with LiBr/H2O, respectively.	lino3-kno3	59-69	caspase recruitment domain family member 16	Homo sapiens	22-25
33267260-5	2019	Moreover, the cycle"s COP and exergy efficiency with CaCl2-LiNO3-KNO3(15.5:5:1)/H2O were approximately 0.04 and 0.06 higher than those with LiBr/H2O, respectively.	Water	80-83	caspase recruitment domain family member 16	Homo sapiens	22-25
33267260-5	2019	Moreover, the cycle"s COP and exergy efficiency with CaCl2-LiNO3-KNO3(15.5:5:1)/H2O were approximately 0.04 and 0.06 higher than those with LiBr/H2O, respectively.	lithium bromide	140-144	caspase recruitment domain family member 16	Homo sapiens	22-25
33267260-5	2019	Moreover, the cycle"s COP and exergy efficiency with CaCl2-LiNO3-KNO3(15.5:5:1)/H2O were approximately 0.04 and 0.06 higher than those with LiBr/H2O, respectively.	Water	145-148	caspase recruitment domain family member 16	Homo sapiens	22-25
30117677-3	2019	Here, we report that LiCl used for the synthesis of ultrathin nanosheets not only serves as template for the synthesis of ultrathin Co2 P nanosheets with a thickness of 0.7 nm but also acts as a catalyst that induces the phase-transfer from CoP to Co2 P.	Lithium Chloride	21-25	caspase recruitment domain family member 16	Homo sapiens	241-244
31065631-5	2019	Moderate iron doping improved the degree of oxidation at the surface of CoP nanosheets and preserved the conductive and chemically stabilizing host, thereby enhancing the OER activity.	Iron	9-13	caspase recruitment domain family member 16	Homo sapiens	72-75
30117677-3	2019	Here, we report that LiCl used for the synthesis of ultrathin nanosheets not only serves as template for the synthesis of ultrathin Co2 P nanosheets with a thickness of 0.7 nm but also acts as a catalyst that induces the phase-transfer from CoP to Co2 P.	co2 p	248-253	caspase recruitment domain family member 16	Homo sapiens	241-244
30521326-0	2018	Phytic Acid-Assisted Formation of Hierarchical Porous CoP/C Nanoboxes for Enhanced Lithium Storage and Hydrogen Generation.	Phytic Acid	0-11	caspase recruitment domain family member 16	Homo sapiens	54-57
30950262-0	2019	Robust NiCoP/CoP Heterostructures for Highly Efficient Hydrogen Evolution Electrocatalysis in Alkaline Solution.	Hydrogen	55-63	caspase recruitment domain family member 16	Homo sapiens	9-12
30950262-2	2019	Herein, we report a highly active and stably heterostructural electrocatalyst consisting of NiCoP nanowires decorated with CoP nanoparticles on a nickel foam (NiCoP-CoP/NF) for effective hydrogen evolution.	Nickel	146-152	caspase recruitment domain family member 16	Homo sapiens	94-97
30950262-2	2019	Herein, we report a highly active and stably heterostructural electrocatalyst consisting of NiCoP nanowires decorated with CoP nanoparticles on a nickel foam (NiCoP-CoP/NF) for effective hydrogen evolution.	Nickel	146-152	caspase recruitment domain family member 16	Homo sapiens	123-126
30950262-2	2019	Herein, we report a highly active and stably heterostructural electrocatalyst consisting of NiCoP nanowires decorated with CoP nanoparticles on a nickel foam (NiCoP-CoP/NF) for effective hydrogen evolution.	Hydrogen	187-195	caspase recruitment domain family member 16	Homo sapiens	94-97
30950262-2	2019	Herein, we report a highly active and stably heterostructural electrocatalyst consisting of NiCoP nanowires decorated with CoP nanoparticles on a nickel foam (NiCoP-CoP/NF) for effective hydrogen evolution.	Hydrogen	187-195	caspase recruitment domain family member 16	Homo sapiens	123-126
30950262-3	2019	The CoP nanoparticles are strongly interfaced with NiCoP nanowires producing abundant electrocatalytically active sites.	nicop	51-56	caspase recruitment domain family member 16	Homo sapiens	4-7
30950262-4	2019	Combined with the integrated catalyst design, NiCoP-CoP/NF affords a remarkable hydrogen evolution performance in terms of high activity, enhanced kinetics, and outstanding durability in an alkaline electrolyte, superior to most of the Co (or Ni)-phosphide-based catalysts reported previously.	Hydrogen	80-88	caspase recruitment domain family member 16	Homo sapiens	48-51
30708245-4	2019	Furthermore, the fairly high activity of H2 evolution of the resulting catalysts having low crystallinity and extremely strong optical properties is reveled in detail via investigating the dynamics of hydrogen generation of CoP and WP.	Hydrogen	41-43	caspase recruitment domain family member 16	Homo sapiens	224-227
30708245-4	2019	Furthermore, the fairly high activity of H2 evolution of the resulting catalysts having low crystallinity and extremely strong optical properties is reveled in detail via investigating the dynamics of hydrogen generation of CoP and WP.	Hydrogen	201-209	caspase recruitment domain family member 16	Homo sapiens	224-227
30708245-7	2019	These may be the main reasons why CoP and WP exhibit efficient H2 evolution activity.	Hydrogen	63-65	caspase recruitment domain family member 16	Homo sapiens	34-37
30708245-8	2019	In addition, the possible mechanism showing high photo-catalytic activity of hydrogen evolution for CoP and WP is proposed by a series of other characterizations, such as SEM, TEM, XPS, BET, transient photo-current response, steady-state fluorescence, transient-state fluorescence and Mott-Schottky studies etc.	Hydrogen	77-85	caspase recruitment domain family member 16	Homo sapiens	100-103
30716195-0	2019	CoP-Doped MOF-Based Electrocatalyst for pH-Universal Hydrogen Evolution Reaction.	Hydrogen	53-61	caspase recruitment domain family member 16	Homo sapiens	0-3
30716195-2	2019	Herein, we report a controllable partial phosphorization strategy to generate CoP species within the Co-based metal-organic framework (Co-MOF).	Metals	110-115	caspase recruitment domain family member 16	Homo sapiens	78-81
30716195-3	2019	Density functional theory calculations and experimental results reveal that the electron transfer from CoP to Co-MOF through N-P/N-Co bonds could lead to the optimized adsorption energy of H2 O (DeltaG  H  2 O *   ) and hydrogen (DeltaGH* ), which, together with the unique porous structure of Co-MOF, contributes to the remarkable HER performance with an overpotential of 49 mV at a current density of 10 mA cm-2 in 1 m phosphate buffer solution (PBS, pH 7.0).	Hydrogen	220-228	caspase recruitment domain family member 16	Homo sapiens	103-106
30716195-3	2019	Density functional theory calculations and experimental results reveal that the electron transfer from CoP to Co-MOF through N-P/N-Co bonds could lead to the optimized adsorption energy of H2 O (DeltaG  H  2 O *   ) and hydrogen (DeltaGH* ), which, together with the unique porous structure of Co-MOF, contributes to the remarkable HER performance with an overpotential of 49 mV at a current density of 10 mA cm-2 in 1 m phosphate buffer solution (PBS, pH 7.0).	Phosphates	421-430	caspase recruitment domain family member 16	Homo sapiens	103-106
30716195-3	2019	Density functional theory calculations and experimental results reveal that the electron transfer from CoP to Co-MOF through N-P/N-Co bonds could lead to the optimized adsorption energy of H2 O (DeltaG  H  2 O *   ) and hydrogen (DeltaGH* ), which, together with the unique porous structure of Co-MOF, contributes to the remarkable HER performance with an overpotential of 49 mV at a current density of 10 mA cm-2 in 1 m phosphate buffer solution (PBS, pH 7.0).	pbs	448-451	caspase recruitment domain family member 16	Homo sapiens	103-106
30716195-5	2019	In addition, the CoP/Co-MOF hybrid also displays Pt-like performance in 0.5 m H2 SO4 and 1 m KOH, with the overpotentials of 27 and 34 mV, respectively, at a current density of 10 mA cm-2 .	sulfuric acid	78-84	caspase recruitment domain family member 16	Homo sapiens	17-20
30716195-5	2019	In addition, the CoP/Co-MOF hybrid also displays Pt-like performance in 0.5 m H2 SO4 and 1 m KOH, with the overpotentials of 27 and 34 mV, respectively, at a current density of 10 mA cm-2 .	potassium hydroxide	93-96	caspase recruitment domain family member 16	Homo sapiens	17-20
30632744-4	2019	Herein, we adopted a facile template-based strategy to derive a composite of 3D hierarchically porous cobalt phosphide nanocubes with a graphene aerogel (CoP@GA).	cobalt phosphide	102-118	caspase recruitment domain family member 16	Homo sapiens	154-157
30632744-4	2019	Herein, we adopted a facile template-based strategy to derive a composite of 3D hierarchically porous cobalt phosphide nanocubes with a graphene aerogel (CoP@GA).	Graphite	136-144	caspase recruitment domain family member 16	Homo sapiens	154-157
30632744-5	2019	The as-prepared CoP@GA features porous cobalt phosphide nanocubes that are firmly encapsulated and uniformly distributed in the well-defined graphene aerogel skeleton.	cobalt phosphide	39-55	caspase recruitment domain family member 16	Homo sapiens	16-19
30632744-5	2019	The as-prepared CoP@GA features porous cobalt phosphide nanocubes that are firmly encapsulated and uniformly distributed in the well-defined graphene aerogel skeleton.	Graphite	141-149	caspase recruitment domain family member 16	Homo sapiens	16-19
30632744-6	2019	Benefiting from the hierarchical porosity, structural integrity, and conductive network, the CoP@GA electrode manifests an ultrahigh initial Coulombic efficiency (88.6%), outstanding lithium storage performance in terms of excellent cycling performance (805.3 mAh g-1 after 200 cycles at 200 mA g-1), superior high-energy performance (351.8 mAh g-1 after 4000 cycles at 10 A g-1), and exceptional rate capability.	Lithium	183-190	caspase recruitment domain family member 16	Homo sapiens	93-96
30569925-2	2019	Herein, a novel, multidimensional and hierarchical nanostructure is synthesized which constitutes 0D CoP nanoparticles distrbuted in a 1D dual carbon matrix and further homogenously encapsulated in a 3D graphene (GR) network; this material is denoted as CoP@DC@GR.	Carbon	143-149	caspase recruitment domain family member 16	Homo sapiens	101-104
30569925-2	2019	Herein, a novel, multidimensional and hierarchical nanostructure is synthesized which constitutes 0D CoP nanoparticles distrbuted in a 1D dual carbon matrix and further homogenously encapsulated in a 3D graphene (GR) network; this material is denoted as CoP@DC@GR.	Graphite	203-211	caspase recruitment domain family member 16	Homo sapiens	101-104
30569925-4	2019	Due to this multiscale coordinated design, the CoP@DC@GR nanocomposite demonstrates high charge capacity, remarkable cycle stability, and distinguished rate performance; therefore, it possesses fascinating potential in anodes for lithium and sodium storage.	Lithium	230-237	caspase recruitment domain family member 16	Homo sapiens	47-50
30569925-4	2019	Due to this multiscale coordinated design, the CoP@DC@GR nanocomposite demonstrates high charge capacity, remarkable cycle stability, and distinguished rate performance; therefore, it possesses fascinating potential in anodes for lithium and sodium storage.	Sodium	242-248	caspase recruitment domain family member 16	Homo sapiens	47-50
30539634-2	2019	Here, we prepared mesoporous silica nanoparticles capped with cerium oxide nanoparticles (COP@MSN) wherein a pH trigger-responsive mechanism was used to control drug release and intracellular drug delivery.	Silicon Dioxide	29-35	caspase recruitment domain family member 16	Homo sapiens	90-93
30539634-2	2019	Here, we prepared mesoporous silica nanoparticles capped with cerium oxide nanoparticles (COP@MSN) wherein a pH trigger-responsive mechanism was used to control drug release and intracellular drug delivery.	ceric oxide	62-74	caspase recruitment domain family member 16	Homo sapiens	90-93
30539634-5	2019	We loaded doxorubicin (DOX) as anticancer biomolecule into the pores of MSN and capped with COP.	Doxorubicin	10-21	caspase recruitment domain family member 16	Homo sapiens	92-95
30539634-5	2019	We loaded doxorubicin (DOX) as anticancer biomolecule into the pores of MSN and capped with COP.	Doxorubicin	23-26	caspase recruitment domain family member 16	Homo sapiens	92-95
30539634-8	2019	The cytotoxic effect of COP in cancer cells was facilitated by the pro-oxidant property of COPs, which considerably raised the reactive oxygen species (ROS) level, thereby leading to cellular apoptosis.	Reactive Oxygen Species	127-150	caspase recruitment domain family member 16	Homo sapiens	24-27
30539634-8	2019	The cytotoxic effect of COP in cancer cells was facilitated by the pro-oxidant property of COPs, which considerably raised the reactive oxygen species (ROS) level, thereby leading to cellular apoptosis.	Reactive Oxygen Species	152-155	caspase recruitment domain family member 16	Homo sapiens	24-27
31012458-1	2019	The facet-dependent strain effects on the hydrogen evolution reaction catalyzed by CoP were studied using density functional theory methods.	Hydrogen	42-50	caspase recruitment domain family member 16	Homo sapiens	83-86
30950262-4	2019	Combined with the integrated catalyst design, NiCoP-CoP/NF affords a remarkable hydrogen evolution performance in terms of high activity, enhanced kinetics, and outstanding durability in an alkaline electrolyte, superior to most of the Co (or Ni)-phosphide-based catalysts reported previously.	co (or	236-242	caspase recruitment domain family member 16	Homo sapiens	48-51
30950262-4	2019	Combined with the integrated catalyst design, NiCoP-CoP/NF affords a remarkable hydrogen evolution performance in terms of high activity, enhanced kinetics, and outstanding durability in an alkaline electrolyte, superior to most of the Co (or Ni)-phosphide-based catalysts reported previously.	phosphide(3-)	247-256	caspase recruitment domain family member 16	Homo sapiens	48-51
30950262-5	2019	Density functional theory calculations demonstrate that there is an interfacial effect between NiCoP and CoP, which allows a preferable hydrogen adsorption and thus contributes to the significantly enhanced performance.	Hydrogen	136-144	caspase recruitment domain family member 16	Homo sapiens	97-100
30801172-5	2019	CoP which was compared as a control sample under the same experimental condition also produced H2O2 through activating dioxygen but did not degrade organic compounds at all.	Hydrogen Peroxide	95-99	caspase recruitment domain family member 16	Homo sapiens	0-3
30801172-5	2019	CoP which was compared as a control sample under the same experimental condition also produced H2O2 through activating dioxygen but did not degrade organic compounds at all.	Oxygen	119-127	caspase recruitment domain family member 16	Homo sapiens	0-3
30801172-6	2019	The electrochemical analysis for the electron transfers on Cu xP and CoP showed that the number of electrons transferred to O2 is 3 and 2, respectively, which explains why OH radical is generated on Cu xP, not on CoP.	Oxygen	124-126	caspase recruitment domain family member 16	Homo sapiens	69-72
30801172-6	2019	The electrochemical analysis for the electron transfers on Cu xP and CoP showed that the number of electrons transferred to O2 is 3 and 2, respectively, which explains why OH radical is generated on Cu xP, not on CoP.	oh radical	172-182	caspase recruitment domain family member 16	Homo sapiens	69-72
30539634-9	2019	The combination of DOX with COP (COP@DOX-MSN) showed even higher ROS level, demonstrating a cytotoxic synergism of drug and nanoparticle in terms of ROS generation.	Doxorubicin	19-22	caspase recruitment domain family member 16	Homo sapiens	33-44
30539634-9	2019	The combination of DOX with COP (COP@DOX-MSN) showed even higher ROS level, demonstrating a cytotoxic synergism of drug and nanoparticle in terms of ROS generation.	Reactive Oxygen Species	65-68	caspase recruitment domain family member 16	Homo sapiens	28-31
30539634-9	2019	The combination of DOX with COP (COP@DOX-MSN) showed even higher ROS level, demonstrating a cytotoxic synergism of drug and nanoparticle in terms of ROS generation.	Reactive Oxygen Species	65-68	caspase recruitment domain family member 16	Homo sapiens	33-44
30539634-9	2019	The combination of DOX with COP (COP@DOX-MSN) showed even higher ROS level, demonstrating a cytotoxic synergism of drug and nanoparticle in terms of ROS generation.	Reactive Oxygen Species	149-152	caspase recruitment domain family member 16	Homo sapiens	28-31
30539634-9	2019	The combination of DOX with COP (COP@DOX-MSN) showed even higher ROS level, demonstrating a cytotoxic synergism of drug and nanoparticle in terms of ROS generation.	Reactive Oxygen Species	149-152	caspase recruitment domain family member 16	Homo sapiens	33-44
30547571-4	2019	Density functional theory calculations show that the FeCoP have the optimal hydrogen absorption energy than that of FeP and CoP.	Hydrogen	76-84	caspase recruitment domain family member 16	Homo sapiens	55-58
30521326-0	2018	Phytic Acid-Assisted Formation of Hierarchical Porous CoP/C Nanoboxes for Enhanced Lithium Storage and Hydrogen Generation.	Lithium	83-90	caspase recruitment domain family member 16	Homo sapiens	54-57
30521326-0	2018	Phytic Acid-Assisted Formation of Hierarchical Porous CoP/C Nanoboxes for Enhanced Lithium Storage and Hydrogen Generation.	Hydrogen	103-111	caspase recruitment domain family member 16	Homo sapiens	54-57
30521326-3	2018	Herein, we report a facile method to synthesize the CoP/C nanoboxes by pyrolysis of phytic acid (PA) cross-linked Co complexes that are acquired from reaction of PA and ZIF-67.	Phytic Acid	84-95	caspase recruitment domain family member 16	Homo sapiens	52-55
30521326-3	2018	Herein, we report a facile method to synthesize the CoP/C nanoboxes by pyrolysis of phytic acid (PA) cross-linked Co complexes that are acquired from reaction of PA and ZIF-67.	Phytic Acid	97-99	caspase recruitment domain family member 16	Homo sapiens	52-55
30521326-3	2018	Herein, we report a facile method to synthesize the CoP/C nanoboxes by pyrolysis of phytic acid (PA) cross-linked Co complexes that are acquired from reaction of PA and ZIF-67.	Phytic Acid	162-164	caspase recruitment domain family member 16	Homo sapiens	52-55
30521326-4	2018	The PA can not only slowly etch ZIF-67 and gain a hollow structure but also act as a source of phosphorus to prepare CoP/C nanoboxes.	Phosphorus	95-105	caspase recruitment domain family member 16	Homo sapiens	117-120
30521326-5	2018	The CoP/C nanoboxes deliver an ultrahigh specific capacity (868 mA h g-1 at 100 mA g-1) and excellent cycle stability (523 mA h g-1 after 1000 cycles at 500 mA h g-1) when used as anode materials for lithium-ion batteries.	Lithium	200-207	caspase recruitment domain family member 16	Homo sapiens	4-7
30525168-3	2018	With the predesigned nitrogen position and structural features of COP materials, the obtained CCOPTDP-FeNi-SiO2 catalyst affords a remarkable bifunctional performance with a positive half-wave potential (0.89 V vs. reversible hydrogen electrode: RHE, superior to the benchmark Pt/C) for ORR activity, and a low overpotential (0.31 V better than the benchmark IrO2) at 10 mA cm-2 for OER activity in alkaline solution.	feni	102-106	caspase recruitment domain family member 16	Homo sapiens	66-69
30525168-3	2018	With the predesigned nitrogen position and structural features of COP materials, the obtained CCOPTDP-FeNi-SiO2 catalyst affords a remarkable bifunctional performance with a positive half-wave potential (0.89 V vs. reversible hydrogen electrode: RHE, superior to the benchmark Pt/C) for ORR activity, and a low overpotential (0.31 V better than the benchmark IrO2) at 10 mA cm-2 for OER activity in alkaline solution.	Hydrogen	226-234	caspase recruitment domain family member 16	Homo sapiens	66-69
30521326-6	2018	Moreover, when used as an electrocatalyst for hydrogen evolution reaction, the CoP/C nanoboxes exhibit ultralow overpotential, small Tafel slope, and excellent durability in acidic media.	Hydrogen	46-54	caspase recruitment domain family member 16	Homo sapiens	79-82
30521326-7	2018	The method to produce CoP/C nanoboxes is easy and environmentally friendly and can be readily extended to design other TMPs/C nanocomposites.	tmps/c	119-125	caspase recruitment domain family member 16	Homo sapiens	22-25
30525168-3	2018	With the predesigned nitrogen position and structural features of COP materials, the obtained CCOPTDP-FeNi-SiO2 catalyst affords a remarkable bifunctional performance with a positive half-wave potential (0.89 V vs. reversible hydrogen electrode: RHE, superior to the benchmark Pt/C) for ORR activity, and a low overpotential (0.31 V better than the benchmark IrO2) at 10 mA cm-2 for OER activity in alkaline solution.	Silicon Dioxide	107-111	caspase recruitment domain family member 16	Homo sapiens	66-69
30031257-1	2018	A new bimetallic Co/Fe-MOF was synthesized and phosphatized to produce a visible-light-active Co/Fe binary metal phosphide embedded in a mesoporous carbon matrix (denoted by CoP/Fe2P@mC).	Cobalt	17-19	caspase recruitment domain family member 16	Homo sapiens	174-177
30427041-0	2018	Cobalt layered double hydroxides derived CoP/Co2P hybrids for electrocatalytic overall water splitting.	cobalt layered double hydroxides	0-32	caspase recruitment domain family member 16	Homo sapiens	41-44
30427041-1	2018	Cobalt layered double hydroxides (Co-LDHs) obtained by an imidazole-assisted route were used as precursors to prepare dual-functional electrocatalysts CoP/Co2P.	cobalt layered double hydroxides	0-32	caspase recruitment domain family member 16	Homo sapiens	151-154
30427041-1	2018	Cobalt layered double hydroxides (Co-LDHs) obtained by an imidazole-assisted route were used as precursors to prepare dual-functional electrocatalysts CoP/Co2P.	imidazole	58-67	caspase recruitment domain family member 16	Homo sapiens	151-154
30427041-1	2018	Cobalt layered double hydroxides (Co-LDHs) obtained by an imidazole-assisted route were used as precursors to prepare dual-functional electrocatalysts CoP/Co2P.	co2p	155-159	caspase recruitment domain family member 16	Homo sapiens	151-154
30427041-2	2018	CoP/Co2P showed an enhanced electrocatalytic performance for HER and OER.	co2p	4-8	caspase recruitment domain family member 16	Homo sapiens	0-3
30842859-3	2019	After remodeling, CoP nanosheets experience an irreversible and significant evolution of the morphology and composition, and low-valence Co complexes consisting of Co(OH) x species are formed on the surface of CoP nanosheets, and they largely accelerate the dissociation of water.	co(oh) x	164-172	caspase recruitment domain family member 16	Homo sapiens	210-213
30842859-4	2019	Benefiting from the synergistic effect of CoP and Co(OH) x , the working electrode shows a remarkably enhanced HER activity of 100 mV at 10 mA cm-2 with a Tafel slope of 76 mV dec-1, which is better than that of most transition metal phosphide catalysts.	metal phosphide	228-243	caspase recruitment domain family member 16	Homo sapiens	42-45
30581726-3	2019	The disease was controlled with rituximab, cyclophosphamide, oncovin, and prednisolone (i.e., R-COP) chemotherapy.	Prednisolone	74-86	caspase recruitment domain family member 16	Homo sapiens	96-99
30031257-1	2018	A new bimetallic Co/Fe-MOF was synthesized and phosphatized to produce a visible-light-active Co/Fe binary metal phosphide embedded in a mesoporous carbon matrix (denoted by CoP/Fe2P@mC).	Iron	20-22	caspase recruitment domain family member 16	Homo sapiens	174-177
30031257-1	2018	A new bimetallic Co/Fe-MOF was synthesized and phosphatized to produce a visible-light-active Co/Fe binary metal phosphide embedded in a mesoporous carbon matrix (denoted by CoP/Fe2P@mC).	metal phosphide	107-122	caspase recruitment domain family member 16	Homo sapiens	174-177
30031257-1	2018	A new bimetallic Co/Fe-MOF was synthesized and phosphatized to produce a visible-light-active Co/Fe binary metal phosphide embedded in a mesoporous carbon matrix (denoted by CoP/Fe2P@mC).	Carbon	148-154	caspase recruitment domain family member 16	Homo sapiens	174-177
30031257-3	2018	Combining the high electron-hole separation rate of Fe2P@mC, fast electron transfer of CoP@mC, and the strong adsorption of mesoporous carbon, the as-prepared CoP/Fe2P@mC catalyst exhibits substantially enhanced photocatalytic activity toward rhodamine B (RhB) degradation under visible light irradiation.	Methylcholanthrene	57-59	caspase recruitment domain family member 16	Homo sapiens	159-162
30031257-3	2018	Combining the high electron-hole separation rate of Fe2P@mC, fast electron transfer of CoP@mC, and the strong adsorption of mesoporous carbon, the as-prepared CoP/Fe2P@mC catalyst exhibits substantially enhanced photocatalytic activity toward rhodamine B (RhB) degradation under visible light irradiation.	Carbon	135-141	caspase recruitment domain family member 16	Homo sapiens	159-162
30031257-3	2018	Combining the high electron-hole separation rate of Fe2P@mC, fast electron transfer of CoP@mC, and the strong adsorption of mesoporous carbon, the as-prepared CoP/Fe2P@mC catalyst exhibits substantially enhanced photocatalytic activity toward rhodamine B (RhB) degradation under visible light irradiation.	rhodamine B	243-254	caspase recruitment domain family member 16	Homo sapiens	159-162
30031257-3	2018	Combining the high electron-hole separation rate of Fe2P@mC, fast electron transfer of CoP@mC, and the strong adsorption of mesoporous carbon, the as-prepared CoP/Fe2P@mC catalyst exhibits substantially enhanced photocatalytic activity toward rhodamine B (RhB) degradation under visible light irradiation.	rhodamine B	256-259	caspase recruitment domain family member 16	Homo sapiens	159-162
30031257-5	2018	Moreover, the possible photocatalytic mechanism of CoP/Fe2P@mC toward RhB degradation was proposed on the basis of radical trapping and electron spin resonance results.	rhodamine B	70-73	caspase recruitment domain family member 16	Homo sapiens	51-54
30232842-2	2018	In this study, a metal-organic framework based synthetic route to couple two non-noble-metal-based catalysts, CoP and Mo2 C, supported on nitrogen-doped carbon has been developed.	Metals	17-22	caspase recruitment domain family member 16	Homo sapiens	110-113
30394689-3	2018	Herein, for the first time, well-dispersed phosphate species up to 70% mass ratio implanted within Ni-doped CoP nanowire matrix are presented via an efficient low-temperature phosphorization strategy.	Phosphates	43-52	caspase recruitment domain family member 16	Homo sapiens	108-111
30232842-2	2018	In this study, a metal-organic framework based synthetic route to couple two non-noble-metal-based catalysts, CoP and Mo2 C, supported on nitrogen-doped carbon has been developed.	Metals	87-92	caspase recruitment domain family member 16	Homo sapiens	110-113
30232842-2	2018	In this study, a metal-organic framework based synthetic route to couple two non-noble-metal-based catalysts, CoP and Mo2 C, supported on nitrogen-doped carbon has been developed.	Nitrogen	138-146	caspase recruitment domain family member 16	Homo sapiens	110-113
30232842-2	2018	In this study, a metal-organic framework based synthetic route to couple two non-noble-metal-based catalysts, CoP and Mo2 C, supported on nitrogen-doped carbon has been developed.	Carbon	153-159	caspase recruitment domain family member 16	Homo sapiens	110-113
30232842-3	2018	The strategy enables the formation of a nanohybrid with an attractive pea-like morphology, in which spherical CoP particles ( 10 nm) are embedded on two-dimensional nitrogen-doped carbon enriched with ultrafine Mo2 C nanoparticles.	Nitrogen	165-173	caspase recruitment domain family member 16	Homo sapiens	110-113
30410931-10	2018	Compressive strength after the elution tests was significantly lower (p = 0.005) for COP specimens loaded with 2 g of vancomycin.	Vancomycin	118-128	caspase recruitment domain family member 16	Homo sapiens	85-88
30410931-6	2018	Results: Cumulative gentamicin concentrations (p < 0.005) and gentamicin concentration after 28 days (p <= 0.043) were significantly lower for COP specimens compared to PAL specimens.	Gentamicins	20-30	caspase recruitment domain family member 16	Homo sapiens	149-152
30410931-6	2018	Results: Cumulative gentamicin concentrations (p < 0.005) and gentamicin concentration after 28 days (p <= 0.043) were significantly lower for COP specimens compared to PAL specimens.	Gentamicins	65-75	caspase recruitment domain family member 16	Homo sapiens	149-152
29990817-1	2018	In this study, a cobalt-phosphorous/oxide (CoP/O) composite prepared via a one-step electrodeposition was for the first time applied in electroreductive dechlorination of halogenated antibiotics (HA), including chloramphenicol (CAP), florfenicol (FLO) and thiamphenicol (TAP).	cobalt-phosphorous	17-35	caspase recruitment domain family member 16	Homo sapiens	43-46
30410931-7	2018	Cumulative vancomycin concentrations were significantly higher (p <= 0.043) for COP specimens after the second day.	Vancomycin	11-21	caspase recruitment domain family member 16	Homo sapiens	83-86
30350551-0	2018	Sub-1.5 nm Ultrathin CoP Nanosheet Aerogel: Efficient Electrocatalyst for Hydrogen Evolution Reaction at All pH Values.	Hydrogen	74-82	caspase recruitment domain family member 16	Homo sapiens	21-24
30350551-3	2018	Herein, an ice-templating strategy is developed to prepare CoP aerogels composed of 2D ultrathin CoP nanosheets (<1.5 nm) using sustainable alginate biomass (seaweed extract) as the precursor.	Alginates	143-151	caspase recruitment domain family member 16	Homo sapiens	59-62
30350551-6	2018	For instance, the sample CoP-400 presents a low overpotential of 113, 154, and 161 mV versus RHE at a current density of 10 mA cm-2 in 0.5 m H2SO4, 1 m KOH, and 1 m phosphate buffer solution, respectively.	sulfuric acid	141-146	caspase recruitment domain family member 16	Homo sapiens	25-28
30350551-6	2018	For instance, the sample CoP-400 presents a low overpotential of 113, 154, and 161 mV versus RHE at a current density of 10 mA cm-2 in 0.5 m H2SO4, 1 m KOH, and 1 m phosphate buffer solution, respectively.	potassium hydroxide	152-155	caspase recruitment domain family member 16	Homo sapiens	25-28
30350551-6	2018	For instance, the sample CoP-400 presents a low overpotential of 113, 154, and 161 mV versus RHE at a current density of 10 mA cm-2 in 0.5 m H2SO4, 1 m KOH, and 1 m phosphate buffer solution, respectively.	Phosphates	165-174	caspase recruitment domain family member 16	Homo sapiens	25-28
29990817-1	2018	In this study, a cobalt-phosphorous/oxide (CoP/O) composite prepared via a one-step electrodeposition was for the first time applied in electroreductive dechlorination of halogenated antibiotics (HA), including chloramphenicol (CAP), florfenicol (FLO) and thiamphenicol (TAP).	Oxides	36-41	caspase recruitment domain family member 16	Homo sapiens	43-46
29990817-1	2018	In this study, a cobalt-phosphorous/oxide (CoP/O) composite prepared via a one-step electrodeposition was for the first time applied in electroreductive dechlorination of halogenated antibiotics (HA), including chloramphenicol (CAP), florfenicol (FLO) and thiamphenicol (TAP).	Chloramphenicol	211-226	caspase recruitment domain family member 16	Homo sapiens	43-46
29990817-1	2018	In this study, a cobalt-phosphorous/oxide (CoP/O) composite prepared via a one-step electrodeposition was for the first time applied in electroreductive dechlorination of halogenated antibiotics (HA), including chloramphenicol (CAP), florfenicol (FLO) and thiamphenicol (TAP).	Chloramphenicol	228-231	caspase recruitment domain family member 16	Homo sapiens	43-46
29990817-1	2018	In this study, a cobalt-phosphorous/oxide (CoP/O) composite prepared via a one-step electrodeposition was for the first time applied in electroreductive dechlorination of halogenated antibiotics (HA), including chloramphenicol (CAP), florfenicol (FLO) and thiamphenicol (TAP).	florfenicol	234-245	caspase recruitment domain family member 16	Homo sapiens	43-46
29990817-1	2018	In this study, a cobalt-phosphorous/oxide (CoP/O) composite prepared via a one-step electrodeposition was for the first time applied in electroreductive dechlorination of halogenated antibiotics (HA), including chloramphenicol (CAP), florfenicol (FLO) and thiamphenicol (TAP).	florfenicol	247-250	caspase recruitment domain family member 16	Homo sapiens	43-46
29990817-1	2018	In this study, a cobalt-phosphorous/oxide (CoP/O) composite prepared via a one-step electrodeposition was for the first time applied in electroreductive dechlorination of halogenated antibiotics (HA), including chloramphenicol (CAP), florfenicol (FLO) and thiamphenicol (TAP).	Thiamphenicol	256-269	caspase recruitment domain family member 16	Homo sapiens	43-46
29990817-1	2018	In this study, a cobalt-phosphorous/oxide (CoP/O) composite prepared via a one-step electrodeposition was for the first time applied in electroreductive dechlorination of halogenated antibiotics (HA), including chloramphenicol (CAP), florfenicol (FLO) and thiamphenicol (TAP).	Thiamphenicol	271-274	caspase recruitment domain family member 16	Homo sapiens	43-46
29990817-4	2018	The electron spin resonance and in situ Raman characterizations confirmed that atomic H* was produced via the CoP and the formation of CoCl bonds occurred on the CoO in CoP/O.	cocl	135-139	caspase recruitment domain family member 16	Homo sapiens	169-172
29990817-5	2018	The CoCl bond formation could trap HA molecules onto CoP/O and weaken the CCl bond strength.	cocl	4-8	caspase recruitment domain family member 16	Homo sapiens	53-56
29920895-0	2018	A Peapod-like CoP@C Nanostructure from Phosphorization in a Low-Temperature Molten Salt for High-Performance Lithium-Ion Batteries.	Salts	83-87	caspase recruitment domain family member 16	Homo sapiens	14-17
30065974-2	2018	In this communication, we demonstrate hierarchical Mn-doped cobalt phosphide nanowire decorated nanosheet cluster arrays with robust adhesion on Ni foam (Mn-CoP/NF) as a binder-free electrode for supercapacitors.	cobalt phosphide	60-76	caspase recruitment domain family member 16	Homo sapiens	157-160
30088762-0	2018	Structure-Designed Synthesis of CoP Microcubes from Metal-Organic Frameworks with Enhanced Supercapacitor Properties.	Metals	52-57	caspase recruitment domain family member 16	Homo sapiens	32-35
30356966-0	2018	Fe-CoP Electrocatalyst Derived from a Bimetallic Prussian Blue Analogue for Large-Current-Density Oxygen Evolution and Overall Water Splitting.	Iron	0-2	caspase recruitment domain family member 16	Homo sapiens	3-6
30356966-0	2018	Fe-CoP Electrocatalyst Derived from a Bimetallic Prussian Blue Analogue for Large-Current-Density Oxygen Evolution and Overall Water Splitting.	ferric ferrocyanide	49-62	caspase recruitment domain family member 16	Homo sapiens	3-6
30356966-0	2018	Fe-CoP Electrocatalyst Derived from a Bimetallic Prussian Blue Analogue for Large-Current-Density Oxygen Evolution and Overall Water Splitting.	Oxygen	98-104	caspase recruitment domain family member 16	Homo sapiens	3-6
30356966-0	2018	Fe-CoP Electrocatalyst Derived from a Bimetallic Prussian Blue Analogue for Large-Current-Density Oxygen Evolution and Overall Water Splitting.	Water	127-132	caspase recruitment domain family member 16	Homo sapiens	3-6
30356966-3	2018	The Fe-CoP/NF (nickel foam) catalyst shows efficient electrocatalytic activity for oxygen evolution reaction, requiring low overpotentials of 190, 295, and 428 mV to achieve 10, 500, and 1000 mA cm-2 current densities in 1.0 m KOH solution.	Nickel	15-21	caspase recruitment domain family member 16	Homo sapiens	7-10
30356966-3	2018	The Fe-CoP/NF (nickel foam) catalyst shows efficient electrocatalytic activity for oxygen evolution reaction, requiring low overpotentials of 190, 295, and 428 mV to achieve 10, 500, and 1000 mA cm-2 current densities in 1.0 m KOH solution.	Oxygen	83-89	caspase recruitment domain family member 16	Homo sapiens	7-10
30356966-3	2018	The Fe-CoP/NF (nickel foam) catalyst shows efficient electrocatalytic activity for oxygen evolution reaction, requiring low overpotentials of 190, 295, and 428 mV to achieve 10, 500, and 1000 mA cm-2 current densities in 1.0 m KOH solution.	potassium hydroxide	227-230	caspase recruitment domain family member 16	Homo sapiens	7-10
30356966-4	2018	In addition, the Fe-CoP/NF can also function as a highly active electrocatalyst for hydrogen evolution reaction with a low overpotential of 78 mV at 10 mA cm-2 current density in alkaline solution.	Hydrogen	84-92	caspase recruitment domain family member 16	Homo sapiens	20-23
29920895-0	2018	A Peapod-like CoP@C Nanostructure from Phosphorization in a Low-Temperature Molten Salt for High-Performance Lithium-Ion Batteries.	Lithium	109-116	caspase recruitment domain family member 16	Homo sapiens	14-17
29920895-1	2018	A mild phosphorization process in low-temperature molten salt (NaCl-KCl-AlCl3 ) has been developed to synthesize peapod-like CoP@C nanostructures by using low-toxicity industrial PCl3 as the phosphorus source and Mg as the reductant at 250  C. Importantly, high efficiency of the phosphorous source is achieved since only stoichiometric PCl3 is required to complete the reaction.	Salts	57-61	caspase recruitment domain family member 16	Homo sapiens	125-128
29920895-1	2018	A mild phosphorization process in low-temperature molten salt (NaCl-KCl-AlCl3 ) has been developed to synthesize peapod-like CoP@C nanostructures by using low-toxicity industrial PCl3 as the phosphorus source and Mg as the reductant at 250  C. Importantly, high efficiency of the phosphorous source is achieved since only stoichiometric PCl3 is required to complete the reaction.	nacl-kcl-alcl3	63-77	caspase recruitment domain family member 16	Homo sapiens	125-128
29920895-1	2018	A mild phosphorization process in low-temperature molten salt (NaCl-KCl-AlCl3 ) has been developed to synthesize peapod-like CoP@C nanostructures by using low-toxicity industrial PCl3 as the phosphorus source and Mg as the reductant at 250  C. Importantly, high efficiency of the phosphorous source is achieved since only stoichiometric PCl3 is required to complete the reaction.	Phosphorus	191-201	caspase recruitment domain family member 16	Homo sapiens	125-128
29920895-1	2018	A mild phosphorization process in low-temperature molten salt (NaCl-KCl-AlCl3 ) has been developed to synthesize peapod-like CoP@C nanostructures by using low-toxicity industrial PCl3 as the phosphorus source and Mg as the reductant at 250  C. Importantly, high efficiency of the phosphorous source is achieved since only stoichiometric PCl3 is required to complete the reaction.	Magnesium	213-215	caspase recruitment domain family member 16	Homo sapiens	125-128
29920895-1	2018	A mild phosphorization process in low-temperature molten salt (NaCl-KCl-AlCl3 ) has been developed to synthesize peapod-like CoP@C nanostructures by using low-toxicity industrial PCl3 as the phosphorus source and Mg as the reductant at 250  C. Importantly, high efficiency of the phosphorous source is achieved since only stoichiometric PCl3 is required to complete the reaction.	Phosphorus	280-291	caspase recruitment domain family member 16	Homo sapiens	125-128
29920895-3	2018	The obtained 0D-in-1D peapod CoP@C structure exhibits excellent lithium storage performance, delivering a superiorly stable capacity of 500 mAh g-1 after 800 cycles at a high current of 1.0 A g-1 .	Lithium	64-71	caspase recruitment domain family member 16	Homo sapiens	29-32
30028452-0	2018	Organophosphoric acid-derived CoP quantum dots@S,N-codoped graphite carbon as a trifunctional electrocatalyst for overall water splitting and Zn-air batteries.	organophosphoric acid	0-21	caspase recruitment domain family member 16	Homo sapiens	30-33
30028452-0	2018	Organophosphoric acid-derived CoP quantum dots@S,N-codoped graphite carbon as a trifunctional electrocatalyst for overall water splitting and Zn-air batteries.	Graphite	59-67	caspase recruitment domain family member 16	Homo sapiens	30-33
30028452-0	2018	Organophosphoric acid-derived CoP quantum dots@S,N-codoped graphite carbon as a trifunctional electrocatalyst for overall water splitting and Zn-air batteries.	Carbon	68-74	caspase recruitment domain family member 16	Homo sapiens	30-33
30028452-0	2018	Organophosphoric acid-derived CoP quantum dots@S,N-codoped graphite carbon as a trifunctional electrocatalyst for overall water splitting and Zn-air batteries.	Zinc	142-144	caspase recruitment domain family member 16	Homo sapiens	30-33
30028452-2	2018	Herein, we demonstrate a facile strategy for the preparation of CoP quantum dots (QDs) embedded in S,N-codoped graphite carbon (CoP@SNC) by using organophosphoric acid as both phosphorus and carbon sources.	Graphite	111-119	caspase recruitment domain family member 16	Homo sapiens	64-67
30028452-2	2018	Herein, we demonstrate a facile strategy for the preparation of CoP quantum dots (QDs) embedded in S,N-codoped graphite carbon (CoP@SNC) by using organophosphoric acid as both phosphorus and carbon sources.	Graphite	111-119	caspase recruitment domain family member 16	Homo sapiens	128-131
30028452-2	2018	Herein, we demonstrate a facile strategy for the preparation of CoP quantum dots (QDs) embedded in S,N-codoped graphite carbon (CoP@SNC) by using organophosphoric acid as both phosphorus and carbon sources.	Carbon	120-126	caspase recruitment domain family member 16	Homo sapiens	64-67
30028452-2	2018	Herein, we demonstrate a facile strategy for the preparation of CoP quantum dots (QDs) embedded in S,N-codoped graphite carbon (CoP@SNC) by using organophosphoric acid as both phosphorus and carbon sources.	Carbon	120-126	caspase recruitment domain family member 16	Homo sapiens	128-131
30028452-2	2018	Herein, we demonstrate a facile strategy for the preparation of CoP quantum dots (QDs) embedded in S,N-codoped graphite carbon (CoP@SNC) by using organophosphoric acid as both phosphorus and carbon sources.	organophosphoric acid	146-167	caspase recruitment domain family member 16	Homo sapiens	64-67
30028452-2	2018	Herein, we demonstrate a facile strategy for the preparation of CoP quantum dots (QDs) embedded in S,N-codoped graphite carbon (CoP@SNC) by using organophosphoric acid as both phosphorus and carbon sources.	organophosphoric acid	146-167	caspase recruitment domain family member 16	Homo sapiens	128-131
30028452-2	2018	Herein, we demonstrate a facile strategy for the preparation of CoP quantum dots (QDs) embedded in S,N-codoped graphite carbon (CoP@SNC) by using organophosphoric acid as both phosphorus and carbon sources.	Phosphorus	176-186	caspase recruitment domain family member 16	Homo sapiens	64-67
30028452-2	2018	Herein, we demonstrate a facile strategy for the preparation of CoP quantum dots (QDs) embedded in S,N-codoped graphite carbon (CoP@SNC) by using organophosphoric acid as both phosphorus and carbon sources.	Phosphorus	176-186	caspase recruitment domain family member 16	Homo sapiens	128-131
30028452-2	2018	Herein, we demonstrate a facile strategy for the preparation of CoP quantum dots (QDs) embedded in S,N-codoped graphite carbon (CoP@SNC) by using organophosphoric acid as both phosphorus and carbon sources.	Carbon	191-197	caspase recruitment domain family member 16	Homo sapiens	64-67
30028452-2	2018	Herein, we demonstrate a facile strategy for the preparation of CoP quantum dots (QDs) embedded in S,N-codoped graphite carbon (CoP@SNC) by using organophosphoric acid as both phosphorus and carbon sources.	Carbon	191-197	caspase recruitment domain family member 16	Homo sapiens	128-131
30028452-3	2018	Benefiting from the strong coupling and synergistic effect between CoP QDs and highly conductive S,N-codoped carbon, well-structured porosity and high specific surface area, the resulting CoP@SNC exhibits excellent activities for oxygen evolution reaction (OER), hydrogen evolution reaction (HER), and oxygen reduction reaction (ORR), making it a trifunctional electro-catalyst for overall water splitting and rechargeable Zn-air batteries.	Carbon	109-115	caspase recruitment domain family member 16	Homo sapiens	188-191
30028452-3	2018	Benefiting from the strong coupling and synergistic effect between CoP QDs and highly conductive S,N-codoped carbon, well-structured porosity and high specific surface area, the resulting CoP@SNC exhibits excellent activities for oxygen evolution reaction (OER), hydrogen evolution reaction (HER), and oxygen reduction reaction (ORR), making it a trifunctional electro-catalyst for overall water splitting and rechargeable Zn-air batteries.	Oxygen	230-236	caspase recruitment domain family member 16	Homo sapiens	188-191
30028452-3	2018	Benefiting from the strong coupling and synergistic effect between CoP QDs and highly conductive S,N-codoped carbon, well-structured porosity and high specific surface area, the resulting CoP@SNC exhibits excellent activities for oxygen evolution reaction (OER), hydrogen evolution reaction (HER), and oxygen reduction reaction (ORR), making it a trifunctional electro-catalyst for overall water splitting and rechargeable Zn-air batteries.	Hydrogen	263-271	caspase recruitment domain family member 16	Homo sapiens	188-191
30028452-3	2018	Benefiting from the strong coupling and synergistic effect between CoP QDs and highly conductive S,N-codoped carbon, well-structured porosity and high specific surface area, the resulting CoP@SNC exhibits excellent activities for oxygen evolution reaction (OER), hydrogen evolution reaction (HER), and oxygen reduction reaction (ORR), making it a trifunctional electro-catalyst for overall water splitting and rechargeable Zn-air batteries.	Oxygen	302-308	caspase recruitment domain family member 16	Homo sapiens	188-191
30028452-3	2018	Benefiting from the strong coupling and synergistic effect between CoP QDs and highly conductive S,N-codoped carbon, well-structured porosity and high specific surface area, the resulting CoP@SNC exhibits excellent activities for oxygen evolution reaction (OER), hydrogen evolution reaction (HER), and oxygen reduction reaction (ORR), making it a trifunctional electro-catalyst for overall water splitting and rechargeable Zn-air batteries.	Water	390-395	caspase recruitment domain family member 16	Homo sapiens	188-191
30028452-3	2018	Benefiting from the strong coupling and synergistic effect between CoP QDs and highly conductive S,N-codoped carbon, well-structured porosity and high specific surface area, the resulting CoP@SNC exhibits excellent activities for oxygen evolution reaction (OER), hydrogen evolution reaction (HER), and oxygen reduction reaction (ORR), making it a trifunctional electro-catalyst for overall water splitting and rechargeable Zn-air batteries.	Zinc	423-425	caspase recruitment domain family member 16	Homo sapiens	188-191
30028452-4	2018	When CoP@SNC is used for overall water splitting, a cell voltage as low as 1.64 V is required to reach the current density of 10 mA cm-2; the obtained rechargeable Zn-air battery with CoP@SNC as the air cathode exhibits a high open-circuit voltage of 1.45 V, a very low discharge-charge voltage gap (0.83 V at 10 mA cm-2), and a long cycle life (up to 180 cycles).	Water	33-38	caspase recruitment domain family member 16	Homo sapiens	5-8
30028452-4	2018	When CoP@SNC is used for overall water splitting, a cell voltage as low as 1.64 V is required to reach the current density of 10 mA cm-2; the obtained rechargeable Zn-air battery with CoP@SNC as the air cathode exhibits a high open-circuit voltage of 1.45 V, a very low discharge-charge voltage gap (0.83 V at 10 mA cm-2), and a long cycle life (up to 180 cycles).	Water	33-38	caspase recruitment domain family member 16	Homo sapiens	184-187
30028452-4	2018	When CoP@SNC is used for overall water splitting, a cell voltage as low as 1.64 V is required to reach the current density of 10 mA cm-2; the obtained rechargeable Zn-air battery with CoP@SNC as the air cathode exhibits a high open-circuit voltage of 1.45 V, a very low discharge-charge voltage gap (0.83 V at 10 mA cm-2), and a long cycle life (up to 180 cycles).	Zinc	164-166	caspase recruitment domain family member 16	Homo sapiens	5-8
30028452-4	2018	When CoP@SNC is used for overall water splitting, a cell voltage as low as 1.64 V is required to reach the current density of 10 mA cm-2; the obtained rechargeable Zn-air battery with CoP@SNC as the air cathode exhibits a high open-circuit voltage of 1.45 V, a very low discharge-charge voltage gap (0.83 V at 10 mA cm-2), and a long cycle life (up to 180 cycles).	Zinc	164-166	caspase recruitment domain family member 16	Homo sapiens	184-187
30005083-6	2018	Patients with one parameter were assigned to COP-LMR group 1.	lmr	49-52	caspase recruitment domain family member 16	Homo sapiens	45-48
29989625-3	2018	Here, multi-shelled CoP nanospheres are designed as a coated separator material for Li-S batteries for the first time.	Lithium	84-88	caspase recruitment domain family member 16	Homo sapiens	20-23
29989625-4	2018	Conductive CoP can efficiently anchor polysulfides not only owing to its polar character but also its partial natural surface oxidation feature as evidenced by XPS results, which further activates Co sites for chemically trapping polysulfides via strong Co-S bonding.	polysulfide	38-50	caspase recruitment domain family member 16	Homo sapiens	11-14
29989625-4	2018	Conductive CoP can efficiently anchor polysulfides not only owing to its polar character but also its partial natural surface oxidation feature as evidenced by XPS results, which further activates Co sites for chemically trapping polysulfides via strong Co-S bonding.	polysulfide	230-242	caspase recruitment domain family member 16	Homo sapiens	11-14
29774606-0	2018	Nitrogen-Doped CoP Electrocatalysts for Coupled Hydrogen Evolution and Sulfur Generation with Low Energy Consumption.	Nitrogen	0-8	caspase recruitment domain family member 16	Homo sapiens	15-18
29942950-0	2018	Fe-doped CoP nanosheet arrays: an efficient bifunctional catalyst for zinc-air batteries.	Iron	0-2	caspase recruitment domain family member 16	Homo sapiens	9-12
29942950-2	2018	In this communication, we report that Fe-doped CoP nanosheet arrays on nickel foam (Fe0.33-CoP/NF) act as a highly active bifunctional electrocatalyst for both the oxygen reduction reaction and the oxygen evolution reaction in alkaline media.	Iron	38-40	caspase recruitment domain family member 16	Homo sapiens	47-50
29942950-2	2018	In this communication, we report that Fe-doped CoP nanosheet arrays on nickel foam (Fe0.33-CoP/NF) act as a highly active bifunctional electrocatalyst for both the oxygen reduction reaction and the oxygen evolution reaction in alkaline media.	Iron	38-40	caspase recruitment domain family member 16	Homo sapiens	91-94
29942950-2	2018	In this communication, we report that Fe-doped CoP nanosheet arrays on nickel foam (Fe0.33-CoP/NF) act as a highly active bifunctional electrocatalyst for both the oxygen reduction reaction and the oxygen evolution reaction in alkaline media.	Nickel	71-77	caspase recruitment domain family member 16	Homo sapiens	47-50
29942950-2	2018	In this communication, we report that Fe-doped CoP nanosheet arrays on nickel foam (Fe0.33-CoP/NF) act as a highly active bifunctional electrocatalyst for both the oxygen reduction reaction and the oxygen evolution reaction in alkaline media.	Nickel	71-77	caspase recruitment domain family member 16	Homo sapiens	91-94
29942950-2	2018	In this communication, we report that Fe-doped CoP nanosheet arrays on nickel foam (Fe0.33-CoP/NF) act as a highly active bifunctional electrocatalyst for both the oxygen reduction reaction and the oxygen evolution reaction in alkaline media.	Oxygen	164-170	caspase recruitment domain family member 16	Homo sapiens	47-50
29942950-2	2018	In this communication, we report that Fe-doped CoP nanosheet arrays on nickel foam (Fe0.33-CoP/NF) act as a highly active bifunctional electrocatalyst for both the oxygen reduction reaction and the oxygen evolution reaction in alkaline media.	Oxygen	164-170	caspase recruitment domain family member 16	Homo sapiens	91-94
29942950-2	2018	In this communication, we report that Fe-doped CoP nanosheet arrays on nickel foam (Fe0.33-CoP/NF) act as a highly active bifunctional electrocatalyst for both the oxygen reduction reaction and the oxygen evolution reaction in alkaline media.	Oxygen	198-204	caspase recruitment domain family member 16	Homo sapiens	47-50
29942950-2	2018	In this communication, we report that Fe-doped CoP nanosheet arrays on nickel foam (Fe0.33-CoP/NF) act as a highly active bifunctional electrocatalyst for both the oxygen reduction reaction and the oxygen evolution reaction in alkaline media.	Oxygen	198-204	caspase recruitment domain family member 16	Homo sapiens	91-94
29942950-3	2018	We further demonstrate the use of Fe0.33-CoP/NF as the cathode to construct rechargeable ZABs with superior performance to that of the CoP/NF counterpart.	zabs	89-93	caspase recruitment domain family member 16	Homo sapiens	41-44
29942950-3	2018	We further demonstrate the use of Fe0.33-CoP/NF as the cathode to construct rechargeable ZABs with superior performance to that of the CoP/NF counterpart.	zabs	89-93	caspase recruitment domain family member 16	Homo sapiens	135-138
29774606-0	2018	Nitrogen-Doped CoP Electrocatalysts for Coupled Hydrogen Evolution and Sulfur Generation with Low Energy Consumption.	Hydrogen	48-56	caspase recruitment domain family member 16	Homo sapiens	15-18
29774606-0	2018	Nitrogen-Doped CoP Electrocatalysts for Coupled Hydrogen Evolution and Sulfur Generation with Low Energy Consumption.	Sulfur	71-77	caspase recruitment domain family member 16	Homo sapiens	15-18
29774606-3	2018	This study proposes an N-doped CoP as the novel and effective electrocatalyst for hydrogen evolution reaction (HER) and constructs a coupled system for simultaneous hydrogen and sulfur production.	Hydrogen	82-90	caspase recruitment domain family member 16	Homo sapiens	31-34
29774606-3	2018	This study proposes an N-doped CoP as the novel and effective electrocatalyst for hydrogen evolution reaction (HER) and constructs a coupled system for simultaneous hydrogen and sulfur production.	Hydrogen	165-173	caspase recruitment domain family member 16	Homo sapiens	31-34
29774606-3	2018	This study proposes an N-doped CoP as the novel and effective electrocatalyst for hydrogen evolution reaction (HER) and constructs a coupled system for simultaneous hydrogen and sulfur production.	Sulfur	178-184	caspase recruitment domain family member 16	Homo sapiens	31-34
29774606-4	2018	Nitrogen doping lowers the d-band of CoP and weakens the H adsorption on the surface of CoP because of the strong electronegativity of nitrogen as compared to phosphorus.	Nitrogen	0-8	caspase recruitment domain family member 16	Homo sapiens	37-40
29774606-4	2018	Nitrogen doping lowers the d-band of CoP and weakens the H adsorption on the surface of CoP because of the strong electronegativity of nitrogen as compared to phosphorus.	Nitrogen	0-8	caspase recruitment domain family member 16	Homo sapiens	88-91
29774606-4	2018	Nitrogen doping lowers the d-band of CoP and weakens the H adsorption on the surface of CoP because of the strong electronegativity of nitrogen as compared to phosphorus.	Nitrogen	135-143	caspase recruitment domain family member 16	Homo sapiens	88-91
29774606-4	2018	Nitrogen doping lowers the d-band of CoP and weakens the H adsorption on the surface of CoP because of the strong electronegativity of nitrogen as compared to phosphorus.	Phosphorus	159-169	caspase recruitment domain family member 16	Homo sapiens	88-91
30009004-3	2018	In this work, we present a complete cycle of synthesis, operando characterization, and redesign of an amorphous cobalt phosphide (CoP x ) bifunctional catalyst.	cobalt phosphide	112-128	caspase recruitment domain family member 16	Homo sapiens	130-133
29869494-3	2018	Results indicate that the COP materials can be used as fluorescence probes to rapidly visualize the precision substructure of LFPs within 5 s by simply spraying method, and tunable fluorescent color makes the COP probes have a high contrast and low interference for fluorescence imaging of LFPs on different substrates (including glass slides, paper, aluminum foil, plastic, ironware) in different backgrounds.	Aluminum	351-359	caspase recruitment domain family member 16	Homo sapiens	26-29
29869494-3	2018	Results indicate that the COP materials can be used as fluorescence probes to rapidly visualize the precision substructure of LFPs within 5 s by simply spraying method, and tunable fluorescent color makes the COP probes have a high contrast and low interference for fluorescence imaging of LFPs on different substrates (including glass slides, paper, aluminum foil, plastic, ironware) in different backgrounds.	Aluminum	351-359	caspase recruitment domain family member 16	Homo sapiens	209-212
29869494-5	2018	Importantly, the COP probes show high stability and could successfully achieve the fluorescence imaging for LFPs after aged for 45 days or washed by water.	Water	149-154	caspase recruitment domain family member 16	Homo sapiens	17-20
30026760-7	2018	In COP, often complete clearance of the lesions is seldom seen, even though they do respond to steroids but not as dramatically as in our case.	Steroids	95-103	caspase recruitment domain family member 16	Homo sapiens	3-6
29633498-3	2018	Herein, the preparation of CoP/CoP2 composite nanoparticles encapsulated within N,P-doped carbon nanotubes (CoP/CoP2 @NPCNTs) is demonstrated as a synergistic electrocatalyst for OER via the calcination of a CoAl-layered double hydroxide/melamine mixture and subsequent phosphorization.	Neptunium	80-83	caspase recruitment domain family member 16	Homo sapiens	27-30
29676412-0	2018	Fabrication of hierarchical CoP nanosheet@microwire arrays via space-confined phosphidation toward high-efficiency water oxidation electrocatalysis under alkaline conditions.	Water	115-120	caspase recruitment domain family member 16	Homo sapiens	28-31
29676412-2	2018	In this Communication, we report a space-confined phosphidation strategy toward developing hierarchical CoP nanosheet@microwire arrays on nickel foam (CoP NS@MW/NF) using a Co(H2PO4)2 2H3PO4 microwire array as the precursor.	Nickel	138-144	caspase recruitment domain family member 16	Homo sapiens	104-107
29676412-2	2018	In this Communication, we report a space-confined phosphidation strategy toward developing hierarchical CoP nanosheet@microwire arrays on nickel foam (CoP NS@MW/NF) using a Co(H2PO4)2 2H3PO4 microwire array as the precursor.	Nickel	138-144	caspase recruitment domain family member 16	Homo sapiens	151-154
29676412-2	2018	In this Communication, we report a space-confined phosphidation strategy toward developing hierarchical CoP nanosheet@microwire arrays on nickel foam (CoP NS@MW/NF) using a Co(H2PO4)2 2H3PO4 microwire array as the precursor.	co(h2po4)2 2h3po4	173-190	caspase recruitment domain family member 16	Homo sapiens	104-107
29676412-2	2018	In this Communication, we report a space-confined phosphidation strategy toward developing hierarchical CoP nanosheet@microwire arrays on nickel foam (CoP NS@MW/NF) using a Co(H2PO4)2 2H3PO4 microwire array as the precursor.	co(h2po4)2 2h3po4	173-190	caspase recruitment domain family member 16	Homo sapiens	151-154
29676412-4	2018	When used as a 3D electrode for water oxidation electrocatalysis, such CoP NS@MW/NF needs an overpotential as low as 296 mV to drive a geometrical catalytic current density of 100 mA cm-2 in 1.0 M KOH, outperforming all reported Co phosphide catalysts in alkaline media.	Water	32-37	caspase recruitment domain family member 16	Homo sapiens	71-74
29676412-4	2018	When used as a 3D electrode for water oxidation electrocatalysis, such CoP NS@MW/NF needs an overpotential as low as 296 mV to drive a geometrical catalytic current density of 100 mA cm-2 in 1.0 M KOH, outperforming all reported Co phosphide catalysts in alkaline media.	potassium hydroxide	197-200	caspase recruitment domain family member 16	Homo sapiens	71-74
29676412-4	2018	When used as a 3D electrode for water oxidation electrocatalysis, such CoP NS@MW/NF needs an overpotential as low as 296 mV to drive a geometrical catalytic current density of 100 mA cm-2 in 1.0 M KOH, outperforming all reported Co phosphide catalysts in alkaline media.	co phosphide	229-241	caspase recruitment domain family member 16	Homo sapiens	71-74
29633498-3	2018	Herein, the preparation of CoP/CoP2 composite nanoparticles encapsulated within N,P-doped carbon nanotubes (CoP/CoP2 @NPCNTs) is demonstrated as a synergistic electrocatalyst for OER via the calcination of a CoAl-layered double hydroxide/melamine mixture and subsequent phosphorization.	Neptunium	80-83	caspase recruitment domain family member 16	Homo sapiens	31-34
29633498-3	2018	Herein, the preparation of CoP/CoP2 composite nanoparticles encapsulated within N,P-doped carbon nanotubes (CoP/CoP2 @NPCNTs) is demonstrated as a synergistic electrocatalyst for OER via the calcination of a CoAl-layered double hydroxide/melamine mixture and subsequent phosphorization.	Carbon	90-96	caspase recruitment domain family member 16	Homo sapiens	27-30
29633498-3	2018	Herein, the preparation of CoP/CoP2 composite nanoparticles encapsulated within N,P-doped carbon nanotubes (CoP/CoP2 @NPCNTs) is demonstrated as a synergistic electrocatalyst for OER via the calcination of a CoAl-layered double hydroxide/melamine mixture and subsequent phosphorization.	Carbon	90-96	caspase recruitment domain family member 16	Homo sapiens	31-34
29633498-3	2018	Herein, the preparation of CoP/CoP2 composite nanoparticles encapsulated within N,P-doped carbon nanotubes (CoP/CoP2 @NPCNTs) is demonstrated as a synergistic electrocatalyst for OER via the calcination of a CoAl-layered double hydroxide/melamine mixture and subsequent phosphorization.	hydroxide ion	228-237	caspase recruitment domain family member 16	Homo sapiens	27-30
29633498-3	2018	Herein, the preparation of CoP/CoP2 composite nanoparticles encapsulated within N,P-doped carbon nanotubes (CoP/CoP2 @NPCNTs) is demonstrated as a synergistic electrocatalyst for OER via the calcination of a CoAl-layered double hydroxide/melamine mixture and subsequent phosphorization.	hydroxide ion	228-237	caspase recruitment domain family member 16	Homo sapiens	31-34
29633498-3	2018	Herein, the preparation of CoP/CoP2 composite nanoparticles encapsulated within N,P-doped carbon nanotubes (CoP/CoP2 @NPCNTs) is demonstrated as a synergistic electrocatalyst for OER via the calcination of a CoAl-layered double hydroxide/melamine mixture and subsequent phosphorization.	melamine	238-246	caspase recruitment domain family member 16	Homo sapiens	27-30
29633498-3	2018	Herein, the preparation of CoP/CoP2 composite nanoparticles encapsulated within N,P-doped carbon nanotubes (CoP/CoP2 @NPCNTs) is demonstrated as a synergistic electrocatalyst for OER via the calcination of a CoAl-layered double hydroxide/melamine mixture and subsequent phosphorization.	melamine	238-246	caspase recruitment domain family member 16	Homo sapiens	31-34
29732273-0	2018	Stability of CoP x Electrocatalysts in Continuous and Interrupted Acidic Electrolysis of Water.	Water	89-94	caspase recruitment domain family member 16	Homo sapiens	13-16
29609454-0	2018	Pt-like Hydrogen Evolution Electrocatalysis on PANI/CoP Hybrid Nanowires by Weakening the Shackles of Hydrogen Ions on the Surfaces of Catalysts.	Hydrogen	8-16	caspase recruitment domain family member 16	Homo sapiens	52-55
29609454-0	2018	Pt-like Hydrogen Evolution Electrocatalysis on PANI/CoP Hybrid Nanowires by Weakening the Shackles of Hydrogen Ions on the Surfaces of Catalysts.	Hydrogen	102-110	caspase recruitment domain family member 16	Homo sapiens	52-55
29609454-3	2018	Here we realize Pt-like hydrogen evolution electrocatalysis on polyaniline (PANI) nanodots (NDs)-decorated CoP hybrid nanowires (HNWs) supported on carbon fibers (CFs) (PANI/CoP HNWs-CFs) as PANI can effectively capture H+ from hydronium ions to form protonated amine groups that have higher positive charge density than those of hydronium ions and can be electro-reduced easily.	Hydrogen	24-32	caspase recruitment domain family member 16	Homo sapiens	107-110
29609454-3	2018	Here we realize Pt-like hydrogen evolution electrocatalysis on polyaniline (PANI) nanodots (NDs)-decorated CoP hybrid nanowires (HNWs) supported on carbon fibers (CFs) (PANI/CoP HNWs-CFs) as PANI can effectively capture H+ from hydronium ions to form protonated amine groups that have higher positive charge density than those of hydronium ions and can be electro-reduced easily.	Hydrogen	24-32	caspase recruitment domain family member 16	Homo sapiens	174-177
29609454-3	2018	Here we realize Pt-like hydrogen evolution electrocatalysis on polyaniline (PANI) nanodots (NDs)-decorated CoP hybrid nanowires (HNWs) supported on carbon fibers (CFs) (PANI/CoP HNWs-CFs) as PANI can effectively capture H+ from hydronium ions to form protonated amine groups that have higher positive charge density than those of hydronium ions and can be electro-reduced easily.	polyaniline	63-74	caspase recruitment domain family member 16	Homo sapiens	107-110
29609454-3	2018	Here we realize Pt-like hydrogen evolution electrocatalysis on polyaniline (PANI) nanodots (NDs)-decorated CoP hybrid nanowires (HNWs) supported on carbon fibers (CFs) (PANI/CoP HNWs-CFs) as PANI can effectively capture H+ from hydronium ions to form protonated amine groups that have higher positive charge density than those of hydronium ions and can be electro-reduced easily.	polyaniline	76-80	caspase recruitment domain family member 16	Homo sapiens	107-110
29732273-2	2018	Yet, their stability is inferior to platinum and compromises the large-scale applicability of CoP x in water electrolyzers.	Water	103-108	caspase recruitment domain family member 16	Homo sapiens	94-97
29437258-0	2018	Highly Efficient Photocatalytic System Constructed from CoP/Carbon Nanotubes or Graphene for Visible-Light-Driven CO2 Reduction.	N2,N6-bis(4-(2-aminoethoxy)quinolin-2-yl)-4-((4-fluorobenzyl)oxy)pyridine-2,6-dicarboxamide	114-117	caspase recruitment domain family member 16	Homo sapiens	56-59
29473308-0	2018	A Room-Temperature Postsynthetic Ligand Exchange Strategy to Construct Mesoporous Fe-Doped CoP Hollow Triangle Plate Arrays for Efficient Electrocatalytic Water Splitting.	Iron	82-84	caspase recruitment domain family member 16	Homo sapiens	91-94
29473308-0	2018	A Room-Temperature Postsynthetic Ligand Exchange Strategy to Construct Mesoporous Fe-Doped CoP Hollow Triangle Plate Arrays for Efficient Electrocatalytic Water Splitting.	Water	155-160	caspase recruitment domain family member 16	Homo sapiens	91-94
29473308-2	2018	In this work, a novel nanostructure of Fe-doped CoP hollow triangle plate arrays (Fe-CoP HTPAs) with unique mesoporous shells is designed and synthesized through a room-temperature postsynthetic ligand exchange reaction followed by a facile phosphorization treatment.	Iron	39-41	caspase recruitment domain family member 16	Homo sapiens	48-51
29473308-2	2018	In this work, a novel nanostructure of Fe-doped CoP hollow triangle plate arrays (Fe-CoP HTPAs) with unique mesoporous shells is designed and synthesized through a room-temperature postsynthetic ligand exchange reaction followed by a facile phosphorization treatment.	Iron	39-41	caspase recruitment domain family member 16	Homo sapiens	85-88
29473308-3	2018	The mild postsynthetic ligand exchange reaction of the presynthesized ZIF-67 TPAs with K4 [Fe(CN)6 ] in an aqueous solution at room temperature is of critical importance in achieving the final hollow nanostructure, which results in the production of CoFe(II)-PBA HTPAs that not only determine the formation of the interior voids in the nanostructure, but also provide the doping of Fe atoms to the CoP lattice.	antibiotic K 4	87-89	caspase recruitment domain family member 16	Homo sapiens	398-401
29473308-3	2018	The mild postsynthetic ligand exchange reaction of the presynthesized ZIF-67 TPAs with K4 [Fe(CN)6 ] in an aqueous solution at room temperature is of critical importance in achieving the final hollow nanostructure, which results in the production of CoFe(II)-PBA HTPAs that not only determine the formation of the interior voids in the nanostructure, but also provide the doping of Fe atoms to the CoP lattice.	fe(cn)6	91-98	caspase recruitment domain family member 16	Homo sapiens	398-401
29473308-3	2018	The mild postsynthetic ligand exchange reaction of the presynthesized ZIF-67 TPAs with K4 [Fe(CN)6 ] in an aqueous solution at room temperature is of critical importance in achieving the final hollow nanostructure, which results in the production of CoFe(II)-PBA HTPAs that not only determine the formation of the interior voids in the nanostructure, but also provide the doping of Fe atoms to the CoP lattice.	cofe(ii)	250-258	caspase recruitment domain family member 16	Homo sapiens	398-401
29473308-3	2018	The mild postsynthetic ligand exchange reaction of the presynthesized ZIF-67 TPAs with K4 [Fe(CN)6 ] in an aqueous solution at room temperature is of critical importance in achieving the final hollow nanostructure, which results in the production of CoFe(II)-PBA HTPAs that not only determine the formation of the interior voids in the nanostructure, but also provide the doping of Fe atoms to the CoP lattice.	Iron	91-93	caspase recruitment domain family member 16	Homo sapiens	398-401
29473308-4	2018	As expected, the as-prepared mesoporous Fe-CoP HTPAs exhibit pronounced activity for water splitting owing to the advantages of abundant active reaction sites, short electron and ion pathways, and favorable hydrogen adsorption free energy (DeltaGH* ).	Water	85-90	caspase recruitment domain family member 16	Homo sapiens	43-46
29473308-4	2018	As expected, the as-prepared mesoporous Fe-CoP HTPAs exhibit pronounced activity for water splitting owing to the advantages of abundant active reaction sites, short electron and ion pathways, and favorable hydrogen adsorption free energy (DeltaGH* ).	Hydrogen	207-215	caspase recruitment domain family member 16	Homo sapiens	43-46
29473308-5	2018	For the hydrogen and oxygen evolution reactions with the Fe-CoP HTPAs in alkaline medium, the low overpotentials of 98 and 230 mV are observed, respectively, and the required cell voltage toward overall water splitting is only as low as 1.59 V for the driving current density of 10 mA cm-2 .	Hydrogen	8-16	caspase recruitment domain family member 16	Homo sapiens	60-63
29473308-5	2018	For the hydrogen and oxygen evolution reactions with the Fe-CoP HTPAs in alkaline medium, the low overpotentials of 98 and 230 mV are observed, respectively, and the required cell voltage toward overall water splitting is only as low as 1.59 V for the driving current density of 10 mA cm-2 .	Oxygen	21-27	caspase recruitment domain family member 16	Homo sapiens	60-63
29479615-1	2018	A new triazine-based covalent organic polymer (named COP-NT), which showed high catalytic activities for the degradation of acidic and basic dyes, is synthesized.	Triazines	6-14	caspase recruitment domain family member 16	Homo sapiens	53-56
29479615-1	2018	A new triazine-based covalent organic polymer (named COP-NT), which showed high catalytic activities for the degradation of acidic and basic dyes, is synthesized.	Polymers	38-45	caspase recruitment domain family member 16	Homo sapiens	53-56
29479615-3	2018	The as-prepared COP-NT exhibits good chemical stability both in acidic and alkaline aqueous solutions, which could be used as an efficient photocatalyst for the degradation of methyl orange (MO), rhodamine B (RhB) and methylene blue (MB).	methyl orange	176-189	caspase recruitment domain family member 16	Homo sapiens	16-19
29479615-3	2018	The as-prepared COP-NT exhibits good chemical stability both in acidic and alkaline aqueous solutions, which could be used as an efficient photocatalyst for the degradation of methyl orange (MO), rhodamine B (RhB) and methylene blue (MB).	rhodamine B	196-207	caspase recruitment domain family member 16	Homo sapiens	16-19
29479615-3	2018	The as-prepared COP-NT exhibits good chemical stability both in acidic and alkaline aqueous solutions, which could be used as an efficient photocatalyst for the degradation of methyl orange (MO), rhodamine B (RhB) and methylene blue (MB).	rhodamine B	209-212	caspase recruitment domain family member 16	Homo sapiens	16-19
29479615-3	2018	The as-prepared COP-NT exhibits good chemical stability both in acidic and alkaline aqueous solutions, which could be used as an efficient photocatalyst for the degradation of methyl orange (MO), rhodamine B (RhB) and methylene blue (MB).	Methylene Blue	218-232	caspase recruitment domain family member 16	Homo sapiens	16-19
29479615-3	2018	The as-prepared COP-NT exhibits good chemical stability both in acidic and alkaline aqueous solutions, which could be used as an efficient photocatalyst for the degradation of methyl orange (MO), rhodamine B (RhB) and methylene blue (MB).	Methylene Blue	234-236	caspase recruitment domain family member 16	Homo sapiens	16-19
29439803-6	2018	Results showed excellent agreement (ICC > 0.999) between the POAs and measured COP by the BBP devices, as well as high accuracy (<1% average percent error) and precision (<0.1 cm average standard deviation of residuals).	bbp	93-96	caspase recruitment domain family member 16	Homo sapiens	82-85
29437258-0	2018	Highly Efficient Photocatalytic System Constructed from CoP/Carbon Nanotubes or Graphene for Visible-Light-Driven CO2 Reduction.	Carbon	60-66	caspase recruitment domain family member 16	Homo sapiens	56-59
29437258-2	2018	We report an efficient system for CO2 transformation to CO catalyzed by bare CoP, hybrid CoP/carbon nanotubes (CNTs), and CoP/reduced graphene oxide (rGO) in mixed aqueous solutions containing a Ru-based photosensitizer, under visible-light irradiation.	N2,N6-bis(4-(2-aminoethoxy)quinolin-2-yl)-4-((4-fluorobenzyl)oxy)pyridine-2,6-dicarboxamide	34-37	caspase recruitment domain family member 16	Homo sapiens	77-80
29437258-2	2018	We report an efficient system for CO2 transformation to CO catalyzed by bare CoP, hybrid CoP/carbon nanotubes (CNTs), and CoP/reduced graphene oxide (rGO) in mixed aqueous solutions containing a Ru-based photosensitizer, under visible-light irradiation.	N2,N6-bis(4-(2-aminoethoxy)quinolin-2-yl)-4-((4-fluorobenzyl)oxy)pyridine-2,6-dicarboxamide	34-37	caspase recruitment domain family member 16	Homo sapiens	89-92
29437258-2	2018	We report an efficient system for CO2 transformation to CO catalyzed by bare CoP, hybrid CoP/carbon nanotubes (CNTs), and CoP/reduced graphene oxide (rGO) in mixed aqueous solutions containing a Ru-based photosensitizer, under visible-light irradiation.	N2,N6-bis(4-(2-aminoethoxy)quinolin-2-yl)-4-((4-fluorobenzyl)oxy)pyridine-2,6-dicarboxamide	34-37	caspase recruitment domain family member 16	Homo sapiens	89-92
29780476-4	2018	Notable trends in OER activity are observed, following the order of FeP < NiP < CoP < FeNiP < FeCoP < CoNiP < FeCoNiP, which indicate that the introduction of a secondary metal(s) to a mono-metallic TMP substantially boosts the OER performance.	Metals	189-194	caspase recruitment domain family member 16	Homo sapiens	86-89
29780476-4	2018	Notable trends in OER activity are observed, following the order of FeP < NiP < CoP < FeNiP < FeCoP < CoNiP < FeCoNiP, which indicate that the introduction of a secondary metal(s) to a mono-metallic TMP substantially boosts the OER performance.	tmp	217-220	caspase recruitment domain family member 16	Homo sapiens	86-89
29341596-0	2018	Core-Shell ZIF-8@ZIF-67-Derived CoP Nanoparticle-Embedded N-Doped Carbon Nanotube Hollow Polyhedron for Efficient Overall Water Splitting.	n-doped	58-65	caspase recruitment domain family member 16	Homo sapiens	32-35
29310259-1	2018	A novel cobalt phosphide (CoxP, a mixture of CoP and Co2P) embedded within nitrogen-doped porous carbon microspheres was facilely prepared by pyrolysis of a composite precursor.	cobalt phosphide	8-24	caspase recruitment domain family member 16	Homo sapiens	45-48
29310259-1	2018	A novel cobalt phosphide (CoxP, a mixture of CoP and Co2P) embedded within nitrogen-doped porous carbon microspheres was facilely prepared by pyrolysis of a composite precursor.	coxp	26-30	caspase recruitment domain family member 16	Homo sapiens	45-48
29341596-0	2018	Core-Shell ZIF-8@ZIF-67-Derived CoP Nanoparticle-Embedded N-Doped Carbon Nanotube Hollow Polyhedron for Efficient Overall Water Splitting.	Nanotubes, Carbon	66-81	caspase recruitment domain family member 16	Homo sapiens	32-35
29341596-0	2018	Core-Shell ZIF-8@ZIF-67-Derived CoP Nanoparticle-Embedded N-Doped Carbon Nanotube Hollow Polyhedron for Efficient Overall Water Splitting.	Water	122-127	caspase recruitment domain family member 16	Homo sapiens	32-35
29341596-4	2018	When the CoP/NCNHP was employed as both the anode and cathode for overall water splitting, a potential as low as 1.64 V was needed to achieve the current density of 10 mA cm-2, and it still exhibited superior activity after continuously working for 36 h with nearly negligible decay in potential.	Water	74-79	caspase recruitment domain family member 16	Homo sapiens	9-12
29096106-3	2018	EXPERIMENTS: A brush-type negatively charged co-polyelectrolyte (Cop-L) with PNIPAAm as side chains was synthetized.	poly-N-isopropylacrylamide	77-84	caspase recruitment domain family member 16	Homo sapiens	65-68
29096106-6	2018	FINDINGS: The Cop-L/DTAB mixtures were capable of producing thermoresponsive foams but only in a very narrow surfactant concentration (cs) range, 0.3 < cs< 1.6 mM.	decyltrimethylammonium	20-24	caspase recruitment domain family member 16	Homo sapiens	14-17
29096106-6	2018	FINDINGS: The Cop-L/DTAB mixtures were capable of producing thermoresponsive foams but only in a very narrow surfactant concentration (cs) range, 0.3 < cs< 1.6 mM.	Cesium	135-137	caspase recruitment domain family member 16	Homo sapiens	14-17
29096106-6	2018	FINDINGS: The Cop-L/DTAB mixtures were capable of producing thermoresponsive foams but only in a very narrow surfactant concentration (cs) range, 0.3 < cs< 1.6 mM.	Cesium	155-157	caspase recruitment domain family member 16	Homo sapiens	14-17
31458502-0	2018	In Situ Preparation of CoP@CdS and Its Catalytic Activity toward Controlling Nitro Reduction under Visible-Light Irradiation.	Cadmium	27-30	caspase recruitment domain family member 16	Homo sapiens	23-26
31458502-0	2018	In Situ Preparation of CoP@CdS and Its Catalytic Activity toward Controlling Nitro Reduction under Visible-Light Irradiation.	nitro	77-82	caspase recruitment domain family member 16	Homo sapiens	23-26
31458502-1	2018	CoP was synthesized in situ on the surface of CdS nanowires using a cobalt-ammine complex as a precursor.	Cadmium	46-49	caspase recruitment domain family member 16	Homo sapiens	0-3
31458502-1	2018	CoP was synthesized in situ on the surface of CdS nanowires using a cobalt-ammine complex as a precursor.	cobalt-ammine	68-81	caspase recruitment domain family member 16	Homo sapiens	0-3
31458502-2	2018	The generated CoP@CdS photocatalyst was well characterized by X-ray diffraction, transmission electron microscopy, selected-area electron diffraction, and diffuse reflectance spectra.	Cadmium	18-21	caspase recruitment domain family member 16	Homo sapiens	14-17
31458502-7	2018	The photocatalytic activity of as-prepared CoP@CdS in situ is comparable to that of the catalysts formed using a noble metal loaded onto CdS.	Cadmium	47-50	caspase recruitment domain family member 16	Homo sapiens	43-46
31458502-7	2018	The photocatalytic activity of as-prepared CoP@CdS in situ is comparable to that of the catalysts formed using a noble metal loaded onto CdS.	Metals	119-124	caspase recruitment domain family member 16	Homo sapiens	43-46
31458502-7	2018	The photocatalytic activity of as-prepared CoP@CdS in situ is comparable to that of the catalysts formed using a noble metal loaded onto CdS.	Cadmium	137-140	caspase recruitment domain family member 16	Homo sapiens	43-46
29355259-0	2018	Porous CoP nanosheets converted from layered double hydroxides with superior electrochemical activity for hydrogen evolution reactions at wide pH ranges.	Hydroxides	52-62	caspase recruitment domain family member 16	Homo sapiens	7-10
29355259-0	2018	Porous CoP nanosheets converted from layered double hydroxides with superior electrochemical activity for hydrogen evolution reactions at wide pH ranges.	Hydrogen	106-114	caspase recruitment domain family member 16	Homo sapiens	7-10
29355259-2	2018	Here, for the first time, we reported a simple and convenient method to synthesize porous nanosheets of metal hydroxides by selectively etching amphoteric Al in CoAl layered double hydroxides on carbon paper (CoAl-LDH/CP), and then convert them into porous cobalt phosphide nanosheets on carbon paper (p-CoP/CP) via low temperature phosphidation.	metal hydroxides	104-120	caspase recruitment domain family member 16	Homo sapiens	304-307
29355259-5	2018	In 1.0 M KOH, the p-CoP/CP only requires an overpotential of 57 mV to drive 10 mA cm-2.	potassium hydroxide	9-12	caspase recruitment domain family member 16	Homo sapiens	20-23
29194945-2	2018	Reported herein is a simple and versatile strategy to synthesize ultrathin Co3 O4 and CoP NSs consisting of close-packed nanoparticles by pyrolyzing cobalt(II) phthalocyanine/graphene oxide (CoPc/GO) assemblies in air and subsequent topotactic phosphidation while preserving the graphene-like morphology.	5'-O-[N-(L-ASPARAGINYL)SULFAMOYL]ADENOSINE	90-93	caspase recruitment domain family member 16	Homo sapiens	86-89
29354815-2	2018	CoP nanoparticles anchored on N,P-dual-doped mesoporous graphene-like carbon (CoP@NPMG) acts as an outstanding bifunctional electrocatalyst for both the hydrogen evolution reaction and the oxygen evolution reaction over a wide pH range.	Carbon	70-76	caspase recruitment domain family member 16	Homo sapiens	78-81
29354815-2	2018	CoP nanoparticles anchored on N,P-dual-doped mesoporous graphene-like carbon (CoP@NPMG) acts as an outstanding bifunctional electrocatalyst for both the hydrogen evolution reaction and the oxygen evolution reaction over a wide pH range.	Hydrogen	153-161	caspase recruitment domain family member 16	Homo sapiens	0-3
29354815-2	2018	CoP nanoparticles anchored on N,P-dual-doped mesoporous graphene-like carbon (CoP@NPMG) acts as an outstanding bifunctional electrocatalyst for both the hydrogen evolution reaction and the oxygen evolution reaction over a wide pH range.	Hydrogen	153-161	caspase recruitment domain family member 16	Homo sapiens	78-81
29354815-2	2018	CoP nanoparticles anchored on N,P-dual-doped mesoporous graphene-like carbon (CoP@NPMG) acts as an outstanding bifunctional electrocatalyst for both the hydrogen evolution reaction and the oxygen evolution reaction over a wide pH range.	Oxygen	189-195	caspase recruitment domain family member 16	Homo sapiens	0-3
29354815-2	2018	CoP nanoparticles anchored on N,P-dual-doped mesoporous graphene-like carbon (CoP@NPMG) acts as an outstanding bifunctional electrocatalyst for both the hydrogen evolution reaction and the oxygen evolution reaction over a wide pH range.	Oxygen	189-195	caspase recruitment domain family member 16	Homo sapiens	78-81
29354815-4	2018	When employed as a bifunctional electrode, CoP@NPMG enables high-performance water splitting with a current density of 10 mA cm-2 at cell voltages of only 1.58 V and 1.74 V in 1 M KOH and 1 M PBS, respectively.	Water	77-82	caspase recruitment domain family member 16	Homo sapiens	43-46
29354815-4	2018	When employed as a bifunctional electrode, CoP@NPMG enables high-performance water splitting with a current density of 10 mA cm-2 at cell voltages of only 1.58 V and 1.74 V in 1 M KOH and 1 M PBS, respectively.	potassium hydroxide	180-183	caspase recruitment domain family member 16	Homo sapiens	43-46
29354815-0	2018	CoP nanoparticles anchored on N,P-dual-doped graphene-like carbon as a catalyst for water splitting in non-acidic media.	Nitrogen	30-31	caspase recruitment domain family member 16	Homo sapiens	0-3
29354815-0	2018	CoP nanoparticles anchored on N,P-dual-doped graphene-like carbon as a catalyst for water splitting in non-acidic media.	Graphite	45-53	caspase recruitment domain family member 16	Homo sapiens	0-3
29354815-0	2018	CoP nanoparticles anchored on N,P-dual-doped graphene-like carbon as a catalyst for water splitting in non-acidic media.	Carbon	59-65	caspase recruitment domain family member 16	Homo sapiens	0-3
29354815-0	2018	CoP nanoparticles anchored on N,P-dual-doped graphene-like carbon as a catalyst for water splitting in non-acidic media.	Water	84-89	caspase recruitment domain family member 16	Homo sapiens	0-3
29354815-2	2018	CoP nanoparticles anchored on N,P-dual-doped mesoporous graphene-like carbon (CoP@NPMG) acts as an outstanding bifunctional electrocatalyst for both the hydrogen evolution reaction and the oxygen evolution reaction over a wide pH range.	Nitrogen	30-31	caspase recruitment domain family member 16	Homo sapiens	0-3
29354815-2	2018	CoP nanoparticles anchored on N,P-dual-doped mesoporous graphene-like carbon (CoP@NPMG) acts as an outstanding bifunctional electrocatalyst for both the hydrogen evolution reaction and the oxygen evolution reaction over a wide pH range.	Nitrogen	30-31	caspase recruitment domain family member 16	Homo sapiens	78-81
29354815-2	2018	CoP nanoparticles anchored on N,P-dual-doped mesoporous graphene-like carbon (CoP@NPMG) acts as an outstanding bifunctional electrocatalyst for both the hydrogen evolution reaction and the oxygen evolution reaction over a wide pH range.	Phosphorus	2-3	caspase recruitment domain family member 16	Homo sapiens	78-81
29354815-2	2018	CoP nanoparticles anchored on N,P-dual-doped mesoporous graphene-like carbon (CoP@NPMG) acts as an outstanding bifunctional electrocatalyst for both the hydrogen evolution reaction and the oxygen evolution reaction over a wide pH range.	mesoporous	45-55	caspase recruitment domain family member 16	Homo sapiens	0-3
29354815-2	2018	CoP nanoparticles anchored on N,P-dual-doped mesoporous graphene-like carbon (CoP@NPMG) acts as an outstanding bifunctional electrocatalyst for both the hydrogen evolution reaction and the oxygen evolution reaction over a wide pH range.	mesoporous	45-55	caspase recruitment domain family member 16	Homo sapiens	78-81
29354815-2	2018	CoP nanoparticles anchored on N,P-dual-doped mesoporous graphene-like carbon (CoP@NPMG) acts as an outstanding bifunctional electrocatalyst for both the hydrogen evolution reaction and the oxygen evolution reaction over a wide pH range.	Graphite	56-64	caspase recruitment domain family member 16	Homo sapiens	0-3
29354815-2	2018	CoP nanoparticles anchored on N,P-dual-doped mesoporous graphene-like carbon (CoP@NPMG) acts as an outstanding bifunctional electrocatalyst for both the hydrogen evolution reaction and the oxygen evolution reaction over a wide pH range.	Graphite	56-64	caspase recruitment domain family member 16	Homo sapiens	78-81
29354815-2	2018	CoP nanoparticles anchored on N,P-dual-doped mesoporous graphene-like carbon (CoP@NPMG) acts as an outstanding bifunctional electrocatalyst for both the hydrogen evolution reaction and the oxygen evolution reaction over a wide pH range.	Carbon	70-76	caspase recruitment domain family member 16	Homo sapiens	0-3
29194945-2	2018	Reported herein is a simple and versatile strategy to synthesize ultrathin Co3 O4 and CoP NSs consisting of close-packed nanoparticles by pyrolyzing cobalt(II) phthalocyanine/graphene oxide (CoPc/GO) assemblies in air and subsequent topotactic phosphidation while preserving the graphene-like morphology.	cobalt phthalocyanine	149-174	caspase recruitment domain family member 16	Homo sapiens	86-89
29194945-2	2018	Reported herein is a simple and versatile strategy to synthesize ultrathin Co3 O4 and CoP NSs consisting of close-packed nanoparticles by pyrolyzing cobalt(II) phthalocyanine/graphene oxide (CoPc/GO) assemblies in air and subsequent topotactic phosphidation while preserving the graphene-like morphology.	graphene oxide	175-189	caspase recruitment domain family member 16	Homo sapiens	86-89
29194945-2	2018	Reported herein is a simple and versatile strategy to synthesize ultrathin Co3 O4 and CoP NSs consisting of close-packed nanoparticles by pyrolyzing cobalt(II) phthalocyanine/graphene oxide (CoPc/GO) assemblies in air and subsequent topotactic phosphidation while preserving the graphene-like morphology.	Graphite	175-183	caspase recruitment domain family member 16	Homo sapiens	86-89
29194945-4	2018	The resulting homologous Co3 O4 and CoP NSs display outstanding catalytic activity in alkaline media toward the oxygen evolution reaction and the hydrogen evolution reaction, respectively, ascribed to the richly exposed active sites, and the expedited electrolyte/ion transmission path.	5'-O-[N-(L-ASPARAGINYL)SULFAMOYL]ADENOSINE	40-43	caspase recruitment domain family member 16	Homo sapiens	36-39
29194945-4	2018	The resulting homologous Co3 O4 and CoP NSs display outstanding catalytic activity in alkaline media toward the oxygen evolution reaction and the hydrogen evolution reaction, respectively, ascribed to the richly exposed active sites, and the expedited electrolyte/ion transmission path.	Oxygen	112-118	caspase recruitment domain family member 16	Homo sapiens	36-39
29194945-4	2018	The resulting homologous Co3 O4 and CoP NSs display outstanding catalytic activity in alkaline media toward the oxygen evolution reaction and the hydrogen evolution reaction, respectively, ascribed to the richly exposed active sites, and the expedited electrolyte/ion transmission path.	Hydrogen	146-154	caspase recruitment domain family member 16	Homo sapiens	36-39
29309139-4	2018	We for the first time find that CoP nanoparticles strongly adsorb polysulfides because their natural oxidation (forming Co-O-P-like species) activates the surface Co sites for binding polysulfides via strong Co-S bonding.	polysulfide	66-78	caspase recruitment domain family member 16	Homo sapiens	32-35
29115125-2	2017	The earth-abundant transition-metal phosphides, especially CoP and Ni2P, have emerged as promising catalysts for HER.	metal phosphides	30-46	caspase recruitment domain family member 16	Homo sapiens	59-62
29309139-4	2018	We for the first time find that CoP nanoparticles strongly adsorb polysulfides because their natural oxidation (forming Co-O-P-like species) activates the surface Co sites for binding polysulfides via strong Co-S bonding.	co-o-p	120-126	caspase recruitment domain family member 16	Homo sapiens	32-35
29309139-4	2018	We for the first time find that CoP nanoparticles strongly adsorb polysulfides because their natural oxidation (forming Co-O-P-like species) activates the surface Co sites for binding polysulfides via strong Co-S bonding.	polysulfide	184-196	caspase recruitment domain family member 16	Homo sapiens	32-35
29309139-5	2018	With a surface oxidation layer capable of confining polysulfides and an inner core suitable for conducting electrons, the CoP nanoparticles are thus a desirable candidate for stabilizing and improving the performance of sulfur cathodes in lithium-sulfur batteries.	polysulfide	52-64	caspase recruitment domain family member 16	Homo sapiens	122-125
29309139-5	2018	With a surface oxidation layer capable of confining polysulfides and an inner core suitable for conducting electrons, the CoP nanoparticles are thus a desirable candidate for stabilizing and improving the performance of sulfur cathodes in lithium-sulfur batteries.	Sulfur	220-226	caspase recruitment domain family member 16	Homo sapiens	122-125
29309139-5	2018	With a surface oxidation layer capable of confining polysulfides and an inner core suitable for conducting electrons, the CoP nanoparticles are thus a desirable candidate for stabilizing and improving the performance of sulfur cathodes in lithium-sulfur batteries.	Sulfur	247-253	caspase recruitment domain family member 16	Homo sapiens	122-125
29171706-3	2018	Taking CoP nanowire arrays grown on carbon cloth (denoted as CoP NWs/CC) as an example, the oxygen plasma engraving can trigger moderate CoOx species formation on the surface of the CoP NWs/CC, which is visually verified by the X-ray absorption fine structure, high-resolution transmission electron microscopy, and energy-dispersive spectrometer (EDS) mapping.	Carbon	36-42	caspase recruitment domain family member 16	Homo sapiens	7-10
29171706-3	2018	Taking CoP nanowire arrays grown on carbon cloth (denoted as CoP NWs/CC) as an example, the oxygen plasma engraving can trigger moderate CoOx species formation on the surface of the CoP NWs/CC, which is visually verified by the X-ray absorption fine structure, high-resolution transmission electron microscopy, and energy-dispersive spectrometer (EDS) mapping.	Carbon	36-42	caspase recruitment domain family member 16	Homo sapiens	61-64
29171706-3	2018	Taking CoP nanowire arrays grown on carbon cloth (denoted as CoP NWs/CC) as an example, the oxygen plasma engraving can trigger moderate CoOx species formation on the surface of the CoP NWs/CC, which is visually verified by the X-ray absorption fine structure, high-resolution transmission electron microscopy, and energy-dispersive spectrometer (EDS) mapping.	Carbon	36-42	caspase recruitment domain family member 16	Homo sapiens	61-64
29171706-3	2018	Taking CoP nanowire arrays grown on carbon cloth (denoted as CoP NWs/CC) as an example, the oxygen plasma engraving can trigger moderate CoOx species formation on the surface of the CoP NWs/CC, which is visually verified by the X-ray absorption fine structure, high-resolution transmission electron microscopy, and energy-dispersive spectrometer (EDS) mapping.	Oxygen	92-98	caspase recruitment domain family member 16	Homo sapiens	7-10
29171706-3	2018	Taking CoP nanowire arrays grown on carbon cloth (denoted as CoP NWs/CC) as an example, the oxygen plasma engraving can trigger moderate CoOx species formation on the surface of the CoP NWs/CC, which is visually verified by the X-ray absorption fine structure, high-resolution transmission electron microscopy, and energy-dispersive spectrometer (EDS) mapping.	Oxygen	92-98	caspase recruitment domain family member 16	Homo sapiens	61-64
29171706-3	2018	Taking CoP nanowire arrays grown on carbon cloth (denoted as CoP NWs/CC) as an example, the oxygen plasma engraving can trigger moderate CoOx species formation on the surface of the CoP NWs/CC, which is visually verified by the X-ray absorption fine structure, high-resolution transmission electron microscopy, and energy-dispersive spectrometer (EDS) mapping.	Oxygen	92-98	caspase recruitment domain family member 16	Homo sapiens	61-64
29171706-3	2018	Taking CoP nanowire arrays grown on carbon cloth (denoted as CoP NWs/CC) as an example, the oxygen plasma engraving can trigger moderate CoOx species formation on the surface of the CoP NWs/CC, which is visually verified by the X-ray absorption fine structure, high-resolution transmission electron microscopy, and energy-dispersive spectrometer (EDS) mapping.	coox	137-141	caspase recruitment domain family member 16	Homo sapiens	7-10
29171706-3	2018	Taking CoP nanowire arrays grown on carbon cloth (denoted as CoP NWs/CC) as an example, the oxygen plasma engraving can trigger moderate CoOx species formation on the surface of the CoP NWs/CC, which is visually verified by the X-ray absorption fine structure, high-resolution transmission electron microscopy, and energy-dispersive spectrometer (EDS) mapping.	coox	137-141	caspase recruitment domain family member 16	Homo sapiens	61-64
29171706-3	2018	Taking CoP nanowire arrays grown on carbon cloth (denoted as CoP NWs/CC) as an example, the oxygen plasma engraving can trigger moderate CoOx species formation on the surface of the CoP NWs/CC, which is visually verified by the X-ray absorption fine structure, high-resolution transmission electron microscopy, and energy-dispersive spectrometer (EDS) mapping.	coox	137-141	caspase recruitment domain family member 16	Homo sapiens	61-64
29171706-4	2018	Benefiting from the moderate CoOx species formed on the surface, which can promote the water dissociation in alkaline HER, the surface reorganization of the CoP NWs/CC realizes almost fourfold enhanced alkaline HER activity and a 180 mV decreased overpotential at 100 mA cm-2 , compared with the pristine ones.	coox	29-33	caspase recruitment domain family member 16	Homo sapiens	157-160
29171706-4	2018	Benefiting from the moderate CoOx species formed on the surface, which can promote the water dissociation in alkaline HER, the surface reorganization of the CoP NWs/CC realizes almost fourfold enhanced alkaline HER activity and a 180 mV decreased overpotential at 100 mA cm-2 , compared with the pristine ones.	Water	87-92	caspase recruitment domain family member 16	Homo sapiens	157-160
29171706-5	2018	More interestingly, this surface reorganization strategy by oxygen plasma engraving can also be effective to other electrocatalysts such as free-standing CoP, Co4 N, O-CoSe2 , and C-CoSe2 nanowires, which verifies the universality of the strategy.	Oxygen	60-66	caspase recruitment domain family member 16	Homo sapiens	154-157
29675243-3	2018	Herein we, for the first time, report vanadium-doped CoP on self-supported conductive carbon cloth (V-CoP/CC) as a robust HER electrocatalyst, which achieves ultra-low overpotentials of 71, 123 and 47 mV to afford a current density of 10 mA cm-2 in 1 M KOH, 1 M PBS and 0.5 M H2SO4 media, respectively.	Carbon	86-92	caspase recruitment domain family member 16	Homo sapiens	53-56
29675243-3	2018	Herein we, for the first time, report vanadium-doped CoP on self-supported conductive carbon cloth (V-CoP/CC) as a robust HER electrocatalyst, which achieves ultra-low overpotentials of 71, 123 and 47 mV to afford a current density of 10 mA cm-2 in 1 M KOH, 1 M PBS and 0.5 M H2SO4 media, respectively.	Carbon	86-92	caspase recruitment domain family member 16	Homo sapiens	102-105
29675243-3	2018	Herein we, for the first time, report vanadium-doped CoP on self-supported conductive carbon cloth (V-CoP/CC) as a robust HER electrocatalyst, which achieves ultra-low overpotentials of 71, 123 and 47 mV to afford a current density of 10 mA cm-2 in 1 M KOH, 1 M PBS and 0.5 M H2SO4 media, respectively.	potassium hydroxide	253-256	caspase recruitment domain family member 16	Homo sapiens	53-56
29675243-3	2018	Herein we, for the first time, report vanadium-doped CoP on self-supported conductive carbon cloth (V-CoP/CC) as a robust HER electrocatalyst, which achieves ultra-low overpotentials of 71, 123 and 47 mV to afford a current density of 10 mA cm-2 in 1 M KOH, 1 M PBS and 0.5 M H2SO4 media, respectively.	sulfuric acid	276-281	caspase recruitment domain family member 16	Homo sapiens	53-56
29182188-2	2017	Here, a multifunctional carbon cloth supported cobalt phosphide (CoP@CC) electrocatalyst was synthesized via a simple electrochemical deposition followed by subsequent phosphorization.	Carbon	24-30	caspase recruitment domain family member 16	Homo sapiens	65-68
29182188-2	2017	Here, a multifunctional carbon cloth supported cobalt phosphide (CoP@CC) electrocatalyst was synthesized via a simple electrochemical deposition followed by subsequent phosphorization.	cobalt phosphide	47-63	caspase recruitment domain family member 16	Homo sapiens	65-68
29115125-3	2017	We describe here the preparation and characterization of a hybrid catalyst of Ni2P nanosheets@CoP nanowires on a carbon cloth for the reaction.	ni2p	78-82	caspase recruitment domain family member 16	Homo sapiens	94-97
29115125-3	2017	We describe here the preparation and characterization of a hybrid catalyst of Ni2P nanosheets@CoP nanowires on a carbon cloth for the reaction.	Carbon	113-119	caspase recruitment domain family member 16	Homo sapiens	94-97
29115125-4	2017	The heterostructure and synergistic effects of the Ni2P and CoP components result in an extremely low overpotential of 55 mV for achieving a catalytic current density of 10 mA cm-2, which is remarkable for transition-metal phosphide electrocatalysts.	metal phosphide	217-232	caspase recruitment domain family member 16	Homo sapiens	60-63
29155704-12	2017	The system of the SAPO-34 zeolite generated a maximum COP of 0.169.	sapo-34 zeolite	18-33	caspase recruitment domain family member 16	Homo sapiens	54-57
29057400-0	2017	A Cu3P-CoP hybrid nanowire array: a superior electrocatalyst for acidic hydrogen evolution reactions.	Hydrogen	72-80	caspase recruitment domain family member 16	Homo sapiens	7-10
29057400-2	2017	In this communication, we report a novel structure consisting of a Cu3P-CoP hybrid nanowire array supported on carbon cloth (Cu3P-CoP/CC) as a superior HER electrocatalyst in acidic media.	Carbon	111-117	caspase recruitment domain family member 16	Homo sapiens	72-75
29057400-2	2017	In this communication, we report a novel structure consisting of a Cu3P-CoP hybrid nanowire array supported on carbon cloth (Cu3P-CoP/CC) as a superior HER electrocatalyst in acidic media.	Carbon	111-117	caspase recruitment domain family member 16	Homo sapiens	130-133
29057400-3	2017	Owing to the synergistic effect between Cu3P and CoP, this Cu3P-CoP/CC catalyst exhibits superior catalytic HER performance, needing an overpotential of 59 mV to drive a current density of 10 mA cm-2 in 0.5 M H2SO4, 24 and 130 mV less than that for CoP/CC and Cu3P/CC, respectively.	sulfuric acid	209-214	caspase recruitment domain family member 16	Homo sapiens	40-52
29057400-3	2017	Owing to the synergistic effect between Cu3P and CoP, this Cu3P-CoP/CC catalyst exhibits superior catalytic HER performance, needing an overpotential of 59 mV to drive a current density of 10 mA cm-2 in 0.5 M H2SO4, 24 and 130 mV less than that for CoP/CC and Cu3P/CC, respectively.	sulfuric acid	209-214	caspase recruitment domain family member 16	Homo sapiens	49-52
29057400-3	2017	Owing to the synergistic effect between Cu3P and CoP, this Cu3P-CoP/CC catalyst exhibits superior catalytic HER performance, needing an overpotential of 59 mV to drive a current density of 10 mA cm-2 in 0.5 M H2SO4, 24 and 130 mV less than that for CoP/CC and Cu3P/CC, respectively.	sulfuric acid	209-214	caspase recruitment domain family member 16	Homo sapiens	64-67
29057400-3	2017	Owing to the synergistic effect between Cu3P and CoP, this Cu3P-CoP/CC catalyst exhibits superior catalytic HER performance, needing an overpotential of 59 mV to drive a current density of 10 mA cm-2 in 0.5 M H2SO4, 24 and 130 mV less than that for CoP/CC and Cu3P/CC, respectively.	cu3p	40-44	caspase recruitment domain family member 16	Homo sapiens	64-67
28787544-3	2017	We demonstrate a potential-cycling method to synthesize a catalyst comprising single Pt atoms on CoP-based nanotube arrays supported by a Ni foam, termed PtSA-NT-NF.	Platinum	85-87	caspase recruitment domain family member 16	Homo sapiens	97-100
29109444-1	2017	In this paper, a highly efficient core-shell structure of TiO2(B)/anatase photocatalyst with CoP cocatalyst has been synthesized via hydrothermal processes and a mechanical milling method.	titanium dioxide	58-62	caspase recruitment domain family member 16	Homo sapiens	93-96
29109444-3	2017	With the participation of CoP particles, there is drastically enhanced  photocatalytic activity of TiO2(B)/anatase, and the H2-production rate can be up to 7400 mumol g-1, which is about 3.2 times higher than TiO2(B)/anatase photocatalyst.	titanium dioxide	99-103	caspase recruitment domain family member 16	Homo sapiens	26-29
29109444-3	2017	With the participation of CoP particles, there is drastically enhanced  photocatalytic activity of TiO2(B)/anatase, and the H2-production rate can be up to 7400 mumol g-1, which is about 3.2 times higher than TiO2(B)/anatase photocatalyst.	Hydrogen	124-126	caspase recruitment domain family member 16	Homo sapiens	26-29
29109444-3	2017	With the participation of CoP particles, there is drastically enhanced  photocatalytic activity of TiO2(B)/anatase, and the H2-production rate can be up to 7400 mumol g-1, which is about 3.2 times higher than TiO2(B)/anatase photocatalyst.	titanium dioxide	209-213	caspase recruitment domain family member 16	Homo sapiens	26-29
29109444-5	2017	The photogenerated holes of anatase can migrate more promptly to the adjacent TiO2(B) core than the photogenerated electrons, which result in an accumulation of electrons in the anatase, and CoP nanoparticles can contribute significantly to transferring electrons from the surface of TiO2(A).	titanium dioxide	78-82	caspase recruitment domain family member 16	Homo sapiens	191-194
29109444-5	2017	The photogenerated holes of anatase can migrate more promptly to the adjacent TiO2(B) core than the photogenerated electrons, which result in an accumulation of electrons in the anatase, and CoP nanoparticles can contribute significantly to transferring electrons from the surface of TiO2(A).	titanium dioxide	284-288	caspase recruitment domain family member 16	Homo sapiens	191-194
28550773-5	2017	Meanwhile, copper resistance genes associated with the Cus, Cop and Pco systems were enriched to eliminate excess intracellular copper.	Copper	11-17	caspase recruitment domain family member 16	Homo sapiens	60-63
28941047-1	2017	Mesoporous cobalt phosphide (meso-CoP) was prepared by the phosphorization of ordered mesoporous cobalt oxide (meso-Co3 O4 ).	mesoporous cobalt phosphide	0-27	caspase recruitment domain family member 16	Homo sapiens	34-37
28941047-1	2017	Mesoporous cobalt phosphide (meso-CoP) was prepared by the phosphorization of ordered mesoporous cobalt oxide (meso-Co3 O4 ).	mesoporous cobalt oxide	86-109	caspase recruitment domain family member 16	Homo sapiens	34-37
28941047-1	2017	Mesoporous cobalt phosphide (meso-CoP) was prepared by the phosphorization of ordered mesoporous cobalt oxide (meso-Co3 O4 ).	meso-co3 o4	111-122	caspase recruitment domain family member 16	Homo sapiens	34-37
28550773-5	2017	Meanwhile, copper resistance genes associated with the Cus, Cop and Pco systems were enriched to eliminate excess intracellular copper.	Copper	128-134	caspase recruitment domain family member 16	Homo sapiens	60-63
28846421-0	2017	Operando Spectroscopic Analysis of CoP Films Electrocatalyzing the Hydrogen-Evolution Reaction.	Hydrogen	67-75	caspase recruitment domain family member 16	Homo sapiens	35-38
28846421-2	2017	For example, an electrodeposited CoP catalyst exhibited an overpotential, eta, of -eta < 100 mV at a current density of -10 mA cm-2 in 0.500 M H2SO4(aq).	sulfuric acid	146-151	caspase recruitment domain family member 16	Homo sapiens	33-36
28846421-2	2017	For example, an electrodeposited CoP catalyst exhibited an overpotential, eta, of -eta < 100 mV at a current density of -10 mA cm-2 in 0.500 M H2SO4(aq).	aq	152-154	caspase recruitment domain family member 16	Homo sapiens	33-36
28824057-10	2017	The most frequent adverse event was neutropenia (72.4% for the R-THP-COP regimen, 88.9% for the R-CHOP regimen).	R-tetrahydropapaverine HCl	63-68	caspase recruitment domain family member 16	Homo sapiens	69-72
28824057-0	2017	3A Comparison between R-THP-COP and R-CHOP Regimens for the Treatment of Diffuse Large B-cell Lymphoma in Old Patients: A Single-institution Analysis.	pirarubicin	23-27	caspase recruitment domain family member 16	Homo sapiens	28-31
28824057-6	2017	Results Among 74 patients with DLBCL (median 76, range 65-90 years; male 39, female 35), 29 received R-THP-COP, while 45 received R-CHOP.	R-tetrahydropapaverine HCl	101-106	caspase recruitment domain family member 16	Homo sapiens	107-110
28824057-8	2017	The 2-year overall and progression-free survival rates were 77.6% and 68.5% for the R-THP-COP regimen and 79.2% and 78.9% for R-CHOP, respectively.	R-tetrahydropapaverine HCl	84-89	caspase recruitment domain family member 16	Homo sapiens	90-93
28692135-5	2017	A high tumor suppression efficiency for this Pa-based COP is reported for the first time.	4-phenylenediamine	45-47	caspase recruitment domain family member 16	Homo sapiens	54-57
28928375-0	2017	An efficient Co3S4/CoP hybrid catalyst for electrocatalytic hydrogen evolution.	co3s4	13-18	caspase recruitment domain family member 16	Homo sapiens	19-22
28928375-0	2017	An efficient Co3S4/CoP hybrid catalyst for electrocatalytic hydrogen evolution.	Hydrogen	60-68	caspase recruitment domain family member 16	Homo sapiens	19-22
28928375-3	2017	Here, a new catalyst based on Co3S4/CoP hybrid that is comprised entirely cheap and earthabundant elements, was first synthesized via a two-step method, the Co(CO3)0.5(OH) 0.11H2O precursor was prepared by a hydrothermal method, followed by phosphidation and sulphidation under Ar atmosphere simultaneously.	co3s4	30-35	caspase recruitment domain family member 16	Homo sapiens	36-39
28928375-3	2017	Here, a new catalyst based on Co3S4/CoP hybrid that is comprised entirely cheap and earthabundant elements, was first synthesized via a two-step method, the Co(CO3)0.5(OH) 0.11H2O precursor was prepared by a hydrothermal method, followed by phosphidation and sulphidation under Ar atmosphere simultaneously.	co(co3)	157-164	caspase recruitment domain family member 16	Homo sapiens	36-39
28928375-3	2017	Here, a new catalyst based on Co3S4/CoP hybrid that is comprised entirely cheap and earthabundant elements, was first synthesized via a two-step method, the Co(CO3)0.5(OH) 0.11H2O precursor was prepared by a hydrothermal method, followed by phosphidation and sulphidation under Ar atmosphere simultaneously.	(oh) 0.11h2o	167-179	caspase recruitment domain family member 16	Homo sapiens	36-39
28928375-4	2017	The resulting Co3S4/CoP hybrid material possessed porous core-shell structure with a homogeneous element distribution and large electroactive surface area (~21.04 mF cm-2).	co3s4	14-19	caspase recruitment domain family member 16	Homo sapiens	20-23
28928375-5	2017	More importantly, the nanostructured Co3S4/CoP electrode exhibits excellent HER properties in acid medium with a low onset overpotential of 34 mV, a small Tafel slope of 45 mV dec-1, as well as a large exchange current density of 150 muA cm-2.	co3s4	37-42	caspase recruitment domain family member 16	Homo sapiens	43-46
28928375-6	2017	These results obtained in this study indicate that the Co3S4/CoP hybrid nanorod is promising replacement to the Pt-based catalysts for H2 production.	co3s4	55-60	caspase recruitment domain family member 16	Homo sapiens	61-64
28928375-6	2017	These results obtained in this study indicate that the Co3S4/CoP hybrid nanorod is promising replacement to the Pt-based catalysts for H2 production.	Platinum	112-114	caspase recruitment domain family member 16	Homo sapiens	61-64
28928375-6	2017	These results obtained in this study indicate that the Co3S4/CoP hybrid nanorod is promising replacement to the Pt-based catalysts for H2 production.	Hydrogen	135-137	caspase recruitment domain family member 16	Homo sapiens	61-64
28692195-0	2017	Homologous Catalysts Based on Fe-Doped CoP Nanoarrays for High-Performance Full Water Splitting under Benign Conditions.	Iron	30-32	caspase recruitment domain family member 16	Homo sapiens	39-42
28692195-3	2017	Iron-doped cobalt phosphate borate nanoarray on carbon cloth (Fe-Co-Pi-Bi/CC) derived from iron-doped cobalt phosphide on CC (Fe-CoP/CC) through oxidative polarization behaves as a highly active bimetallic electrocatalyst for water oxidation with an overpotential of 382 mV to afford a catalytic current density of 10 mA cm-2 in 0.1 m potassium borate (K-Bi, pH 9.2).	Iron	0-4	caspase recruitment domain family member 16	Homo sapiens	129-132
28692195-3	2017	Iron-doped cobalt phosphate borate nanoarray on carbon cloth (Fe-Co-Pi-Bi/CC) derived from iron-doped cobalt phosphide on CC (Fe-CoP/CC) through oxidative polarization behaves as a highly active bimetallic electrocatalyst for water oxidation with an overpotential of 382 mV to afford a catalytic current density of 10 mA cm-2 in 0.1 m potassium borate (K-Bi, pH 9.2).	cobalt phosphate borate	11-34	caspase recruitment domain family member 16	Homo sapiens	129-132
28692195-3	2017	Iron-doped cobalt phosphate borate nanoarray on carbon cloth (Fe-Co-Pi-Bi/CC) derived from iron-doped cobalt phosphide on CC (Fe-CoP/CC) through oxidative polarization behaves as a highly active bimetallic electrocatalyst for water oxidation with an overpotential of 382 mV to afford a catalytic current density of 10 mA cm-2 in 0.1 m potassium borate (K-Bi, pH 9.2).	Carbon	48-54	caspase recruitment domain family member 16	Homo sapiens	129-132
28692195-3	2017	Iron-doped cobalt phosphate borate nanoarray on carbon cloth (Fe-Co-Pi-Bi/CC) derived from iron-doped cobalt phosphide on CC (Fe-CoP/CC) through oxidative polarization behaves as a highly active bimetallic electrocatalyst for water oxidation with an overpotential of 382 mV to afford a catalytic current density of 10 mA cm-2 in 0.1 m potassium borate (K-Bi, pH 9.2).	fe-co-pi-bi	62-73	caspase recruitment domain family member 16	Homo sapiens	129-132
28692195-3	2017	Iron-doped cobalt phosphate borate nanoarray on carbon cloth (Fe-Co-Pi-Bi/CC) derived from iron-doped cobalt phosphide on CC (Fe-CoP/CC) through oxidative polarization behaves as a highly active bimetallic electrocatalyst for water oxidation with an overpotential of 382 mV to afford a catalytic current density of 10 mA cm-2 in 0.1 m potassium borate (K-Bi, pH 9.2).	Iron	91-95	caspase recruitment domain family member 16	Homo sapiens	129-132
28692195-3	2017	Iron-doped cobalt phosphate borate nanoarray on carbon cloth (Fe-Co-Pi-Bi/CC) derived from iron-doped cobalt phosphide on CC (Fe-CoP/CC) through oxidative polarization behaves as a highly active bimetallic electrocatalyst for water oxidation with an overpotential of 382 mV to afford a catalytic current density of 10 mA cm-2 in 0.1 m potassium borate (K-Bi, pH 9.2).	cobalt phosphide	102-118	caspase recruitment domain family member 16	Homo sapiens	129-132
28692195-3	2017	Iron-doped cobalt phosphate borate nanoarray on carbon cloth (Fe-Co-Pi-Bi/CC) derived from iron-doped cobalt phosphide on CC (Fe-CoP/CC) through oxidative polarization behaves as a highly active bimetallic electrocatalyst for water oxidation with an overpotential of 382 mV to afford a catalytic current density of 10 mA cm-2 in 0.1 m potassium borate (K-Bi, pH 9.2).	Iron	62-64	caspase recruitment domain family member 16	Homo sapiens	129-132
28692195-3	2017	Iron-doped cobalt phosphate borate nanoarray on carbon cloth (Fe-Co-Pi-Bi/CC) derived from iron-doped cobalt phosphide on CC (Fe-CoP/CC) through oxidative polarization behaves as a highly active bimetallic electrocatalyst for water oxidation with an overpotential of 382 mV to afford a catalytic current density of 10 mA cm-2 in 0.1 m potassium borate (K-Bi, pH 9.2).	Water	226-231	caspase recruitment domain family member 16	Homo sapiens	129-132
28692195-3	2017	Iron-doped cobalt phosphate borate nanoarray on carbon cloth (Fe-Co-Pi-Bi/CC) derived from iron-doped cobalt phosphide on CC (Fe-CoP/CC) through oxidative polarization behaves as a highly active bimetallic electrocatalyst for water oxidation with an overpotential of 382 mV to afford a catalytic current density of 10 mA cm-2 in 0.1 m potassium borate (K-Bi, pH 9.2).	tetraborate	335-351	caspase recruitment domain family member 16	Homo sapiens	129-132
28692195-4	2017	Fe-CoP/CC is also highly active for the hydrogen evolution reaction, capable of driving 10 mA cm-2 at an overpotential of only 175 mV in 0.1 m K-Bi.	Hydrogen	40-48	caspase recruitment domain family member 16	Homo sapiens	3-6
28692195-5	2017	A two-electrode water electrolyzer incorporating Fe-Co-Pi-Bi/CC as anode and Fe-CoP/CC as cathode achieves 10 mA cm-2 water-splitting current at a cell voltage of 1.95 V with strong long-term electrochemical durability.	Water	16-21	caspase recruitment domain family member 16	Homo sapiens	80-83
28692195-5	2017	A two-electrode water electrolyzer incorporating Fe-Co-Pi-Bi/CC as anode and Fe-CoP/CC as cathode achieves 10 mA cm-2 water-splitting current at a cell voltage of 1.95 V with strong long-term electrochemical durability.	Water	118-123	caspase recruitment domain family member 16	Homo sapiens	80-83
28613810-0	2017	MOF-Derived Formation of Ni2P-CoP Bimetallic Phosphides with Strong Interfacial Effect toward Electrocatalytic Water Splitting.	ni2p	25-29	caspase recruitment domain family member 16	Homo sapiens	30-33
31457676-1	2017	An azo-linked covalent organic polymer, Py-azo-COP, was synthesized by employing a highly blue-fluorescent pyrene derivative that is multiply substituted with bulky isopropyl groups.	anthrone	3-6	caspase recruitment domain family member 16	Homo sapiens	47-50
31457676-1	2017	An azo-linked covalent organic polymer, Py-azo-COP, was synthesized by employing a highly blue-fluorescent pyrene derivative that is multiply substituted with bulky isopropyl groups.	Polymers	31-38	caspase recruitment domain family member 16	Homo sapiens	47-50
31457676-1	2017	An azo-linked covalent organic polymer, Py-azo-COP, was synthesized by employing a highly blue-fluorescent pyrene derivative that is multiply substituted with bulky isopropyl groups.	pyrene	107-113	caspase recruitment domain family member 16	Homo sapiens	47-50
31457676-3	2017	Py-azo-COP shows selective sensing toward the electron-deficient polynitroaromatic compound picric acid among the many other competing analogs that were investigated.	polynitroaromatic	65-82	caspase recruitment domain family member 16	Homo sapiens	7-10
31457676-3	2017	Py-azo-COP shows selective sensing toward the electron-deficient polynitroaromatic compound picric acid among the many other competing analogs that were investigated.	picric acid	92-103	caspase recruitment domain family member 16	Homo sapiens	7-10
31457676-4	2017	Apart from its chemosensing ability, Py-azo-COP (surface area 700 m2 g-1) exhibits moderate selectivity toward adsorption of CO2 and stores up to 8.5 wt % of CO2 at 1 bar and 18.2 wt % at 15.5 bar at 273 K, although this is limited due to the electron-rich -N=N- linkages being flanked by isopropyl groups.	N2,N6-bis(4-(2-aminoethoxy)quinolin-2-yl)-4-((4-fluorobenzyl)oxy)pyridine-2,6-dicarboxamide	125-128	caspase recruitment domain family member 16	Homo sapiens	44-47
31457676-4	2017	Apart from its chemosensing ability, Py-azo-COP (surface area 700 m2 g-1) exhibits moderate selectivity toward adsorption of CO2 and stores up to 8.5 wt % of CO2 at 1 bar and 18.2 wt % at 15.5 bar at 273 K, although this is limited due to the electron-rich -N=N- linkages being flanked by isopropyl groups.	N2,N6-bis(4-(2-aminoethoxy)quinolin-2-yl)-4-((4-fluorobenzyl)oxy)pyridine-2,6-dicarboxamide	158-161	caspase recruitment domain family member 16	Homo sapiens	44-47
31457676-5	2017	Furthermore, the presence of a large number of isopropyl groups imparts hydrophobicity to Py-azo-COP, as confirmed by the increased adsorption of toluene compared to that of water in the pores of the COP.	Toluene	146-153	caspase recruitment domain family member 16	Homo sapiens	97-100
31457676-5	2017	Furthermore, the presence of a large number of isopropyl groups imparts hydrophobicity to Py-azo-COP, as confirmed by the increased adsorption of toluene compared to that of water in the pores of the COP.	Toluene	146-153	caspase recruitment domain family member 16	Homo sapiens	200-203
31457676-5	2017	Furthermore, the presence of a large number of isopropyl groups imparts hydrophobicity to Py-azo-COP, as confirmed by the increased adsorption of toluene compared to that of water in the pores of the COP.	Water	174-179	caspase recruitment domain family member 16	Homo sapiens	97-100
31457676-5	2017	Furthermore, the presence of a large number of isopropyl groups imparts hydrophobicity to Py-azo-COP, as confirmed by the increased adsorption of toluene compared to that of water in the pores of the COP.	Water	174-179	caspase recruitment domain family member 16	Homo sapiens	200-203
28704607-5	2017	Notably, the developed COP-TPP(Fe)@MOF-900 exhibits a 16 mV positive half-wave potential compared with the benchmarked Pt/C.	Iron	31-33	caspase recruitment domain family member 16	Homo sapiens	23-26
28726380-2	2017	One of the most active transition metal phosphides, CoP, has been tested for its stability and operability under mild conditions that it may be exposed to in its applications (photoelectrochemistry and artificial photosynthesis).	metal phosphides	34-50	caspase recruitment domain family member 16	Homo sapiens	52-55
28726380-3	2017	Surface-interrogation scanning electrochemical microscopy (SI-SECM) revealed that CoP HER catalyst is vulnerable to oxidation (by oxygen and chemical oxidants).	Oxygen	130-136	caspase recruitment domain family member 16	Homo sapiens	82-85
28613810-0	2017	MOF-Derived Formation of Ni2P-CoP Bimetallic Phosphides with Strong Interfacial Effect toward Electrocatalytic Water Splitting.	phosphides	45-55	caspase recruitment domain family member 16	Homo sapiens	30-33
28613810-0	2017	MOF-Derived Formation of Ni2P-CoP Bimetallic Phosphides with Strong Interfacial Effect toward Electrocatalytic Water Splitting.	Water	111-116	caspase recruitment domain family member 16	Homo sapiens	30-33
28613810-2	2017	Herein, a MOF-derived phosphorization approach was developed to produce Ni2P-CoP bimetallic phosphides as bifunctional electrocatalysts for both hydrogen and oxygen evolution reactions (HER and OER).	ni2p	72-76	caspase recruitment domain family member 16	Homo sapiens	77-80
28613810-2	2017	Herein, a MOF-derived phosphorization approach was developed to produce Ni2P-CoP bimetallic phosphides as bifunctional electrocatalysts for both hydrogen and oxygen evolution reactions (HER and OER).	phosphides	92-102	caspase recruitment domain family member 16	Homo sapiens	77-80
28613810-2	2017	Herein, a MOF-derived phosphorization approach was developed to produce Ni2P-CoP bimetallic phosphides as bifunctional electrocatalysts for both hydrogen and oxygen evolution reactions (HER and OER).	Hydrogen	145-153	caspase recruitment domain family member 16	Homo sapiens	77-80
28613810-2	2017	Herein, a MOF-derived phosphorization approach was developed to produce Ni2P-CoP bimetallic phosphides as bifunctional electrocatalysts for both hydrogen and oxygen evolution reactions (HER and OER).	Oxygen	158-164	caspase recruitment domain family member 16	Homo sapiens	77-80
28613810-3	2017	Ni2P-CoP shows superior electrocatalytic activities to both pure Ni2P and CoP toward HER and OER, revealing a strong synergistic effect.	ni2p	0-4	caspase recruitment domain family member 16	Homo sapiens	5-8
28613810-3	2017	Ni2P-CoP shows superior electrocatalytic activities to both pure Ni2P and CoP toward HER and OER, revealing a strong synergistic effect.	ni2p	0-4	caspase recruitment domain family member 16	Homo sapiens	74-77
28613810-3	2017	Ni2P-CoP shows superior electrocatalytic activities to both pure Ni2P and CoP toward HER and OER, revealing a strong synergistic effect.	ni2p	65-69	caspase recruitment domain family member 16	Homo sapiens	5-8
28613810-4	2017	High-resolution transmission electron microscopy and energy dispersive X-ray spectroscopy elemental mapping analysis show that, in the sample Ni2P-CoP, the Ni2P and CoP nanoparticles with an average particle size 10-20 nm were mixed closely on the nanoscale, creating numerous Ni2P/CoP interfaces.	ni2p	142-146	caspase recruitment domain family member 16	Homo sapiens	147-150
28613810-4	2017	High-resolution transmission electron microscopy and energy dispersive X-ray spectroscopy elemental mapping analysis show that, in the sample Ni2P-CoP, the Ni2P and CoP nanoparticles with an average particle size 10-20 nm were mixed closely on the nanoscale, creating numerous Ni2P/CoP interfaces.	ni2p	142-146	caspase recruitment domain family member 16	Homo sapiens	165-168
28613810-4	2017	High-resolution transmission electron microscopy and energy dispersive X-ray spectroscopy elemental mapping analysis show that, in the sample Ni2P-CoP, the Ni2P and CoP nanoparticles with an average particle size 10-20 nm were mixed closely on the nanoscale, creating numerous Ni2P/CoP interfaces.	ni2p	142-146	caspase recruitment domain family member 16	Homo sapiens	165-168
28613810-4	2017	High-resolution transmission electron microscopy and energy dispersive X-ray spectroscopy elemental mapping analysis show that, in the sample Ni2P-CoP, the Ni2P and CoP nanoparticles with an average particle size 10-20 nm were mixed closely on the nanoscale, creating numerous Ni2P/CoP interfaces.	ni2p	156-160	caspase recruitment domain family member 16	Homo sapiens	147-150
28613810-4	2017	High-resolution transmission electron microscopy and energy dispersive X-ray spectroscopy elemental mapping analysis show that, in the sample Ni2P-CoP, the Ni2P and CoP nanoparticles with an average particle size 10-20 nm were mixed closely on the nanoscale, creating numerous Ni2P/CoP interfaces.	ni2p	156-160	caspase recruitment domain family member 16	Homo sapiens	147-150
28613810-5	2017	By comparison with the sample Ni2P+CoP, in which seldom Ni2P/CoP interfaces exist, we documented that the Ni2P/CoP interface is an essential prerequisite to realize the synergistic effect and to achieve the enhanced electrocatalytic activities in Ni2P-CoP bimetallic phosphides.	ni2p	30-34	caspase recruitment domain family member 16	Homo sapiens	61-64
28613810-5	2017	By comparison with the sample Ni2P+CoP, in which seldom Ni2P/CoP interfaces exist, we documented that the Ni2P/CoP interface is an essential prerequisite to realize the synergistic effect and to achieve the enhanced electrocatalytic activities in Ni2P-CoP bimetallic phosphides.	ni2p	30-34	caspase recruitment domain family member 16	Homo sapiens	61-64
28613810-5	2017	By comparison with the sample Ni2P+CoP, in which seldom Ni2P/CoP interfaces exist, we documented that the Ni2P/CoP interface is an essential prerequisite to realize the synergistic effect and to achieve the enhanced electrocatalytic activities in Ni2P-CoP bimetallic phosphides.	ni2p	30-34	caspase recruitment domain family member 16	Homo sapiens	61-64
28613810-5	2017	By comparison with the sample Ni2P+CoP, in which seldom Ni2P/CoP interfaces exist, we documented that the Ni2P/CoP interface is an essential prerequisite to realize the synergistic effect and to achieve the enhanced electrocatalytic activities in Ni2P-CoP bimetallic phosphides.	ni2p	56-60	caspase recruitment domain family member 16	Homo sapiens	35-38
28613810-5	2017	By comparison with the sample Ni2P+CoP, in which seldom Ni2P/CoP interfaces exist, we documented that the Ni2P/CoP interface is an essential prerequisite to realize the synergistic effect and to achieve the enhanced electrocatalytic activities in Ni2P-CoP bimetallic phosphides.	ni2p	56-60	caspase recruitment domain family member 16	Homo sapiens	35-38
28613810-5	2017	By comparison with the sample Ni2P+CoP, in which seldom Ni2P/CoP interfaces exist, we documented that the Ni2P/CoP interface is an essential prerequisite to realize the synergistic effect and to achieve the enhanced electrocatalytic activities in Ni2P-CoP bimetallic phosphides.	phosphides	267-277	caspase recruitment domain family member 16	Homo sapiens	35-38
28613810-5	2017	By comparison with the sample Ni2P+CoP, in which seldom Ni2P/CoP interfaces exist, we documented that the Ni2P/CoP interface is an essential prerequisite to realize the synergistic effect and to achieve the enhanced electrocatalytic activities in Ni2P-CoP bimetallic phosphides.	phosphides	267-277	caspase recruitment domain family member 16	Homo sapiens	61-64
28613810-5	2017	By comparison with the sample Ni2P+CoP, in which seldom Ni2P/CoP interfaces exist, we documented that the Ni2P/CoP interface is an essential prerequisite to realize the synergistic effect and to achieve the enhanced electrocatalytic activities in Ni2P-CoP bimetallic phosphides.	phosphides	267-277	caspase recruitment domain family member 16	Homo sapiens	61-64
28613810-5	2017	By comparison with the sample Ni2P+CoP, in which seldom Ni2P/CoP interfaces exist, we documented that the Ni2P/CoP interface is an essential prerequisite to realize the synergistic effect and to achieve the enhanced electrocatalytic activities in Ni2P-CoP bimetallic phosphides.	phosphides	267-277	caspase recruitment domain family member 16	Homo sapiens	61-64
28487917-3	2017	An Fe-doped CoP nanosheet array (Fe-CoP/CC) is used as a bifunctional catalyst for both AOR and hydrogen evolution reaction (HER).	Iron	3-5	caspase recruitment domain family member 16	Homo sapiens	12-15
28666424-8	2017	Significant improvement was noticed after three cycles of chemotherapy of THP-COP (pirarubicin, cyclophosphamide, vincristine, and prednisolone).	pirarubicin	83-94	caspase recruitment domain family member 16	Homo sapiens	78-81
28666424-8	2017	Significant improvement was noticed after three cycles of chemotherapy of THP-COP (pirarubicin, cyclophosphamide, vincristine, and prednisolone).	Cyclophosphamide	96-112	caspase recruitment domain family member 16	Homo sapiens	78-81
28666424-8	2017	Significant improvement was noticed after three cycles of chemotherapy of THP-COP (pirarubicin, cyclophosphamide, vincristine, and prednisolone).	Vincristine	114-125	caspase recruitment domain family member 16	Homo sapiens	78-81
28666424-8	2017	Significant improvement was noticed after three cycles of chemotherapy of THP-COP (pirarubicin, cyclophosphamide, vincristine, and prednisolone).	Prednisolone	131-143	caspase recruitment domain family member 16	Homo sapiens	78-81
28590453-2	2017	For increased selectivity, gold electrodes were previously modified with cobalt (II)-porphyrin (CoP) film with electrocatalytic activity, to act both as an electrochemical mediator and an enzyme support, upon which the enzyme tyrosinase (Tyr) was cross-linked.	cobalt (ii)-porphyrin	73-94	caspase recruitment domain family member 16	Homo sapiens	96-99
28590453-4	2017	Our experiments demonstrated that the presence of CoP improves the selectivity of the electrode towards dopamine in the presence of ascorbic acid (AA), with a linear trend of concentration dependence in the range of 2-30 microM.	Dopamine	104-112	caspase recruitment domain family member 16	Homo sapiens	50-53
28590453-4	2017	Our experiments demonstrated that the presence of CoP improves the selectivity of the electrode towards dopamine in the presence of ascorbic acid (AA), with a linear trend of concentration dependence in the range of 2-30 microM.	Ascorbic Acid	132-145	caspase recruitment domain family member 16	Homo sapiens	50-53
26449182-3	2017	Here, we confirmed the efficacy of THP-COP using THP instead of DOX in the treatment of PTCL-NOS.	thp	35-38	caspase recruitment domain family member 16	Homo sapiens	39-42
26449182-3	2017	Here, we confirmed the efficacy of THP-COP using THP instead of DOX in the treatment of PTCL-NOS.	thp	49-52	caspase recruitment domain family member 16	Homo sapiens	39-42
26449182-13	2017	In patients with low IPI or PIT, THP-COP resulted in significantly better prognosis.	thp	33-36	caspase recruitment domain family member 16	Homo sapiens	37-40
28394487-0	2017	Graphene Decorated with Uniform Ultrathin (CoP)x -(FeP)1-x Nanorods: A Robust Non-Noble-Metal Catalyst for Hydrogen Evolution.	Graphite	0-8	caspase recruitment domain family member 16	Homo sapiens	43-46
28394487-0	2017	Graphene Decorated with Uniform Ultrathin (CoP)x -(FeP)1-x Nanorods: A Robust Non-Noble-Metal Catalyst for Hydrogen Evolution.	Metals	88-93	caspase recruitment domain family member 16	Homo sapiens	43-46
28394487-0	2017	Graphene Decorated with Uniform Ultrathin (CoP)x -(FeP)1-x Nanorods: A Robust Non-Noble-Metal Catalyst for Hydrogen Evolution.	Hydrogen	107-115	caspase recruitment domain family member 16	Homo sapiens	43-46
28394487-3	2017	Herein, a universal "nanocasting" method is reported to construct graphene decorated with uniform ternary (CoP)x -(FeP)1-x (0 <= x <= 1) nanorods hybrids with different chemical compositions [(CoP)x -(FeP)1-x -NRs/G] as a highly active and durable nonprecious-metal electrocatalyst for the HER.	Graphite	66-74	caspase recruitment domain family member 16	Homo sapiens	107-110
28394487-3	2017	Herein, a universal "nanocasting" method is reported to construct graphene decorated with uniform ternary (CoP)x -(FeP)1-x (0 <= x <= 1) nanorods hybrids with different chemical compositions [(CoP)x -(FeP)1-x -NRs/G] as a highly active and durable nonprecious-metal electrocatalyst for the HER.	Graphite	66-74	caspase recruitment domain family member 16	Homo sapiens	199-202
28487917-3	2017	An Fe-doped CoP nanosheet array (Fe-CoP/CC) is used as a bifunctional catalyst for both AOR and hydrogen evolution reaction (HER).	Hydrogen	96-104	caspase recruitment domain family member 16	Homo sapiens	12-15
28487917-4	2017	The Fe-CoP/CC Fe-CoP/CC couple requires a cell voltage of 1.51 V to drive 20 mA cm-2 in 1.0 M KOH containing AE; however, a cell volatge of 1.63 V is required to drive the same current density in the absence of AE.	Iron	4-6	caspase recruitment domain family member 16	Homo sapiens	7-10
28487917-4	2017	The Fe-CoP/CC Fe-CoP/CC couple requires a cell voltage of 1.51 V to drive 20 mA cm-2 in 1.0 M KOH containing AE; however, a cell volatge of 1.63 V is required to drive the same current density in the absence of AE.	Iron	4-6	caspase recruitment domain family member 16	Homo sapiens	17-20
28487917-4	2017	The Fe-CoP/CC Fe-CoP/CC couple requires a cell voltage of 1.51 V to drive 20 mA cm-2 in 1.0 M KOH containing AE; however, a cell volatge of 1.63 V is required to drive the same current density in the absence of AE.	potassium hydroxide	94-97	caspase recruitment domain family member 16	Homo sapiens	7-10
28487917-4	2017	The Fe-CoP/CC Fe-CoP/CC couple requires a cell voltage of 1.51 V to drive 20 mA cm-2 in 1.0 M KOH containing AE; however, a cell volatge of 1.63 V is required to drive the same current density in the absence of AE.	potassium hydroxide	94-97	caspase recruitment domain family member 16	Homo sapiens	17-20
28487917-4	2017	The Fe-CoP/CC Fe-CoP/CC couple requires a cell voltage of 1.51 V to drive 20 mA cm-2 in 1.0 M KOH containing AE; however, a cell volatge of 1.63 V is required to drive the same current density in the absence of AE.	Oxygen	109-111	caspase recruitment domain family member 16	Homo sapiens	7-10
28487917-4	2017	The Fe-CoP/CC Fe-CoP/CC couple requires a cell voltage of 1.51 V to drive 20 mA cm-2 in 1.0 M KOH containing AE; however, a cell volatge of 1.63 V is required to drive the same current density in the absence of AE.	Oxygen	109-111	caspase recruitment domain family member 16	Homo sapiens	17-20
28487917-4	2017	The Fe-CoP/CC Fe-CoP/CC couple requires a cell voltage of 1.51 V to drive 20 mA cm-2 in 1.0 M KOH containing AE; however, a cell volatge of 1.63 V is required to drive the same current density in the absence of AE.	Oxygen	211-213	caspase recruitment domain family member 16	Homo sapiens	7-10
28487917-4	2017	The Fe-CoP/CC Fe-CoP/CC couple requires a cell voltage of 1.51 V to drive 20 mA cm-2 in 1.0 M KOH containing AE; however, a cell volatge of 1.63 V is required to drive the same current density in the absence of AE.	Oxygen	211-213	caspase recruitment domain family member 16	Homo sapiens	17-20
28261892-0	2017	Self-Supported CoP Nanorod Arrays Grafted on Stainless Steel as an Advanced Integrated Anode for Stable and Long-Life Lithium-Ion Batteries.	Stainless Steel	45-60	caspase recruitment domain family member 16	Homo sapiens	15-18
28452469-2	2017	Herein, we reported a general strategy for synthesis of a series of TMPs (Fe2P, FeP, Co2P, CoP, Ni2P, and Ni12P5) nanoparticles (NPs) with different metal phases embedded in a N-doped carbon (NC) matrix using metal salt, ammonium dihydrogen phosphate, and melamine as precursor with varying molar ratios and thermolysis temperatures.	tmps	68-72	caspase recruitment domain family member 16	Homo sapiens	91-94
28126574-0	2017	Nanostructured CoP: An efficient catalyst for degradation of organic pollutants by activating peroxymonosulfate.	peroxymonosulfate	94-111	caspase recruitment domain family member 16	Homo sapiens	15-18
28126574-1	2017	A new catalyst system of CoP/peroxymonosulfate (PMS) is presented, which achieved significant improvement in catalytic activity.	peroxymonosulfate	29-46	caspase recruitment domain family member 16	Homo sapiens	25-28
28126574-1	2017	A new catalyst system of CoP/peroxymonosulfate (PMS) is presented, which achieved significant improvement in catalytic activity.	pms	48-51	caspase recruitment domain family member 16	Homo sapiens	25-28
28126574-7	2017	CoP/PMS demonstrated excellent anti-interference performance toward anions (Cl-, NO3-, and HCO3-).	pms	4-7	caspase recruitment domain family member 16	Homo sapiens	0-3
28126574-7	2017	CoP/PMS demonstrated excellent anti-interference performance toward anions (Cl-, NO3-, and HCO3-).	punky blue	81-84	caspase recruitment domain family member 16	Homo sapiens	0-3
28126574-7	2017	CoP/PMS demonstrated excellent anti-interference performance toward anions (Cl-, NO3-, and HCO3-).	Bicarbonates	91-95	caspase recruitment domain family member 16	Homo sapiens	0-3
28126574-9	2017	Based on the XPS spectra of CoP, the identification of the reactive species (OH and SO4-) by electron paramagnetic resonance (EPR) analysis and quenching tests, a possible mechanism for activation of PMS by CoP was proposed.	sulfuric acid	84-87	caspase recruitment domain family member 16	Homo sapiens	207-210
28261892-0	2017	Self-Supported CoP Nanorod Arrays Grafted on Stainless Steel as an Advanced Integrated Anode for Stable and Long-Life Lithium-Ion Batteries.	Lithium	118-125	caspase recruitment domain family member 16	Homo sapiens	15-18
28261892-2	2017	Herein, self-supported CoP nanorod arrays have been facilely synthesized using hydrothemally deposited Co(CO3 )0.5 (OH) 0.11 H2 O nanorod arrays as the precursor, through a gas-phase phosphidation method.	co(co3 )	103-111	caspase recruitment domain family member 16	Homo sapiens	23-26
28261892-2	2017	Herein, self-supported CoP nanorod arrays have been facilely synthesized using hydrothemally deposited Co(CO3 )0.5 (OH) 0.11 H2 O nanorod arrays as the precursor, through a gas-phase phosphidation method.	Water	125-129	caspase recruitment domain family member 16	Homo sapiens	23-26
32263943-2	2017	In this communication, we demonstrate that cobalt phosphide nanowire array grown in situ on titanium mesh (CoP NA/TM) exhibits high catalytic activity towards electrooxidation of glucose.	cobalt phosphide	43-59	caspase recruitment domain family member 16	Homo sapiens	107-110
28188690-0	2017	Interconnected Network of Core-Shell CoP@CoBiPi for Efficient Water Oxidation Electrocatalysis under Near Neutral Conditions.	Water	62-67	caspase recruitment domain family member 16	Homo sapiens	37-40
28188690-2	2017	Herein, we demonstrate the development of an interconnected network of core-shell CoP@CoBiPi through anodic polarization of a CoP nanoarray in potassium borate aqueous electrolyte (KBi).	tetraborate	143-159	caspase recruitment domain family member 16	Homo sapiens	82-86
28188690-2	2017	Herein, we demonstrate the development of an interconnected network of core-shell CoP@CoBiPi through anodic polarization of a CoP nanoarray in potassium borate aqueous electrolyte (KBi).	tetraborate	143-159	caspase recruitment domain family member 16	Homo sapiens	82-85
28188690-3	2017	This 3 D CoP@CoBiPi exhibits high catalytic activity for water oxidation at pH 9.2 and needs an overpotential (eta) of only 410 mV to drive a geometrical catalytic current density of 10 mA cm-2 , with a high turnover frequency of 819 h-1 at an overpotential of 610 mV.	Water	57-62	caspase recruitment domain family member 16	Homo sapiens	9-12
28553512-0	2017	Sub-1.1 nm ultrathin porous CoP nanosheets with dominant reactive {200} facets: a high mass activity and efficient electrocatalyst for the hydrogen evolution reaction.	Hydrogen	139-147	caspase recruitment domain family member 16	Homo sapiens	28-31
28553512-2	2017	Herein we demonstrate a chemical transformation strategy to synthesize porous CoP ultrathin nanosheets with sub-1.1 nm thickness and exposed {200} facets via phosphidation of Co3O4 precursors.	ultrathin	82-91	caspase recruitment domain family member 16	Homo sapiens	78-81
28553512-2	2017	Herein we demonstrate a chemical transformation strategy to synthesize porous CoP ultrathin nanosheets with sub-1.1 nm thickness and exposed {200} facets via phosphidation of Co3O4 precursors.	co3o4	175-180	caspase recruitment domain family member 16	Homo sapiens	78-81
28349153-0	2017	Al-Doped CoP nanoarray: a durable water-splitting electrocatalyst with superhigh activity.	Water	34-39	caspase recruitment domain family member 16	Homo sapiens	9-12
28349153-2	2017	In this Article, we report that an Al-doped CoP nanoarray on carbon cloth (Al-CoP/CC) behaves as a durable hydrogen evolution electrocatalyst with superhigh activity in 0.5 M H2SO4.	Carbon	61-67	caspase recruitment domain family member 16	Homo sapiens	44-47
28349153-2	2017	In this Article, we report that an Al-doped CoP nanoarray on carbon cloth (Al-CoP/CC) behaves as a durable hydrogen evolution electrocatalyst with superhigh activity in 0.5 M H2SO4.	Carbon	61-67	caspase recruitment domain family member 16	Homo sapiens	78-81
28349153-2	2017	In this Article, we report that an Al-doped CoP nanoarray on carbon cloth (Al-CoP/CC) behaves as a durable hydrogen evolution electrocatalyst with superhigh activity in 0.5 M H2SO4.	Hydrogen	107-115	caspase recruitment domain family member 16	Homo sapiens	44-47
28349153-2	2017	In this Article, we report that an Al-doped CoP nanoarray on carbon cloth (Al-CoP/CC) behaves as a durable hydrogen evolution electrocatalyst with superhigh activity in 0.5 M H2SO4.	Hydrogen	107-115	caspase recruitment domain family member 16	Homo sapiens	78-81
28349153-2	2017	In this Article, we report that an Al-doped CoP nanoarray on carbon cloth (Al-CoP/CC) behaves as a durable hydrogen evolution electrocatalyst with superhigh activity in 0.5 M H2SO4.	sulfuric acid	175-180	caspase recruitment domain family member 16	Homo sapiens	44-47
28349153-2	2017	In this Article, we report that an Al-doped CoP nanoarray on carbon cloth (Al-CoP/CC) behaves as a durable hydrogen evolution electrocatalyst with superhigh activity in 0.5 M H2SO4.	sulfuric acid	175-180	caspase recruitment domain family member 16	Homo sapiens	78-81
28349153-4	2017	Density functional theory calculations reveal that Al-CoP has a more thermo-neutral hydrogen adsorption free energy than CoP.	Hydrogen	84-92	caspase recruitment domain family member 16	Homo sapiens	54-57
28349153-5	2017	Notably, this Al-CoP/CC is also superior in activity and durability as a bifunctional catalyst for alkaline water electrolysis, and its two-electrode water electrolyser delivers 10 mA cm-2 water-splitting current at a cell voltage of 1.56 V in 1.0 M KOH.	Aluminum	14-16	caspase recruitment domain family member 16	Homo sapiens	17-20
28349153-5	2017	Notably, this Al-CoP/CC is also superior in activity and durability as a bifunctional catalyst for alkaline water electrolysis, and its two-electrode water electrolyser delivers 10 mA cm-2 water-splitting current at a cell voltage of 1.56 V in 1.0 M KOH.	Water	108-113	caspase recruitment domain family member 16	Homo sapiens	17-20
28349153-5	2017	Notably, this Al-CoP/CC is also superior in activity and durability as a bifunctional catalyst for alkaline water electrolysis, and its two-electrode water electrolyser delivers 10 mA cm-2 water-splitting current at a cell voltage of 1.56 V in 1.0 M KOH.	Water	150-155	caspase recruitment domain family member 16	Homo sapiens	17-20
28349153-5	2017	Notably, this Al-CoP/CC is also superior in activity and durability as a bifunctional catalyst for alkaline water electrolysis, and its two-electrode water electrolyser delivers 10 mA cm-2 water-splitting current at a cell voltage of 1.56 V in 1.0 M KOH.	Water	150-155	caspase recruitment domain family member 16	Homo sapiens	17-20
28349153-5	2017	Notably, this Al-CoP/CC is also superior in activity and durability as a bifunctional catalyst for alkaline water electrolysis, and its two-electrode water electrolyser delivers 10 mA cm-2 water-splitting current at a cell voltage of 1.56 V in 1.0 M KOH.	potassium hydroxide	250-253	caspase recruitment domain family member 16	Homo sapiens	17-20
28451361-0	2017	Vapor-solid synthesis of monolithic single-crystalline CoP nanowire electrodes for efficient and robust water electrolysis.	Water	104-109	caspase recruitment domain family member 16	Homo sapiens	55-58
28451361-4	2017	Herein, we report a novel vapor-solid synthesis of single-crystalline cobalt phosphide nanowires (CoP NWs) on a porous Co foam and demonstrate their use in overall water splitting.	cobalt phosphide	70-86	caspase recruitment domain family member 16	Homo sapiens	98-101
28451361-4	2017	Herein, we report a novel vapor-solid synthesis of single-crystalline cobalt phosphide nanowires (CoP NWs) on a porous Co foam and demonstrate their use in overall water splitting.	Water	164-169	caspase recruitment domain family member 16	Homo sapiens	98-101
28451361-6	2017	Comprehensive investigation shows that under the OER conditions CoP NWs are progressively and conformally converted to CoOOH through electrochemical in situ oxidation/dephosphorization; the latter serving as an active species to catalyze the OER.	coooh	119-124	caspase recruitment domain family member 16	Homo sapiens	64-67
28151577-3	2017	Thus, the achieved significantly increased photocatalytic H2 -evolution rate on the optimized CoP/TiO2 (8350 micromol h-1 g-1 ) is 11 times higher than that of the pristine TiO2 .	Hydrogen	58-60	caspase recruitment domain family member 16	Homo sapiens	94-97
28151577-3	2017	Thus, the achieved significantly increased photocatalytic H2 -evolution rate on the optimized CoP/TiO2 (8350 micromol h-1 g-1 ) is 11 times higher than that of the pristine TiO2 .	titanium dioxide	98-102	caspase recruitment domain family member 16	Homo sapiens	94-97
28151577-3	2017	Thus, the achieved significantly increased photocatalytic H2 -evolution rate on the optimized CoP/TiO2 (8350 micromol h-1 g-1 ) is 11 times higher than that of the pristine TiO2 .	titanium dioxide	173-177	caspase recruitment domain family member 16	Homo sapiens	94-97
32263943-2	2017	In this communication, we demonstrate that cobalt phosphide nanowire array grown in situ on titanium mesh (CoP NA/TM) exhibits high catalytic activity towards electrooxidation of glucose.	Glucose	179-186	caspase recruitment domain family member 16	Homo sapiens	107-110
32263943-3	2017	As a non-enzymatic electrochemical glucose sensor, this CoP NA/TM catalytic electrode possesses superior analytical performance with a short response time of less than 5 s, a wide linear range of 0.0005-1.5 mM, a low detection limit of 0.1 muM (S/N = 3), a high sensitivity of 5168.6 muA mM-1 cm-2, and a remarkable selectivity and long-term stability for glucose detection.	Glucose	35-42	caspase recruitment domain family member 16	Homo sapiens	56-59
32263943-3	2017	As a non-enzymatic electrochemical glucose sensor, this CoP NA/TM catalytic electrode possesses superior analytical performance with a short response time of less than 5 s, a wide linear range of 0.0005-1.5 mM, a low detection limit of 0.1 muM (S/N = 3), a high sensitivity of 5168.6 muA mM-1 cm-2, and a remarkable selectivity and long-term stability for glucose detection.	Glucose	356-363	caspase recruitment domain family member 16	Homo sapiens	56-59
27992673-3	2017	Herein, it is demonstrated that a metal-free, nonconjugated, anthraquinone-based copolymer (poly[1,4-diamine-9,10-dioxoanthracene-alt-(benzene-1,4-dioic acid)] (COP)) with a strong absorption in the visible region is effective as a sunlight heterogeneous photocatalyst.	Metals	34-39	caspase recruitment domain family member 16	Homo sapiens	161-164
28044433-2	2017	Herein, mediated by dynamically self-assembled graphene quantum dots (GQDs), small, uniform, high-density, and well-dispersed CoP nanoparticles were grown in situ on pristine graphene for the first time.	Graphite	47-55	caspase recruitment domain family member 16	Homo sapiens	126-129
28044433-2	2017	Herein, mediated by dynamically self-assembled graphene quantum dots (GQDs), small, uniform, high-density, and well-dispersed CoP nanoparticles were grown in situ on pristine graphene for the first time.	Graphite	175-183	caspase recruitment domain family member 16	Homo sapiens	126-129
27992673-3	2017	Herein, it is demonstrated that a metal-free, nonconjugated, anthraquinone-based copolymer (poly[1,4-diamine-9,10-dioxoanthracene-alt-(benzene-1,4-dioic acid)] (COP)) with a strong absorption in the visible region is effective as a sunlight heterogeneous photocatalyst.	anthraquinone-based copolymer	61-90	caspase recruitment domain family member 16	Homo sapiens	161-164
27992673-3	2017	Herein, it is demonstrated that a metal-free, nonconjugated, anthraquinone-based copolymer (poly[1,4-diamine-9,10-dioxoanthracene-alt-(benzene-1,4-dioic acid)] (COP)) with a strong absorption in the visible region is effective as a sunlight heterogeneous photocatalyst.	poly[1,4-diamine-9,10-dioxoanthracene-alt-(benzene-1,4-dioic acid)	92-158	caspase recruitment domain family member 16	Homo sapiens	161-164
27992673-5	2017	The photocatalytic efficiency of COP compares well with that of TiO2 -P25 when the reaction is carried out in a solar photoreactor in acid medium.	acid medium	134-145	caspase recruitment domain family member 16	Homo sapiens	33-36
27992673-6	2017	Steady-state and time-resolved (absorption and emission) studies performed on COP suspended in 6:4 DMF/H2 O have provided valuable information about the COP species generated under different pH conditions.	Dimethylformamide	99-102	caspase recruitment domain family member 16	Homo sapiens	78-81
27992673-6	2017	Steady-state and time-resolved (absorption and emission) studies performed on COP suspended in 6:4 DMF/H2 O have provided valuable information about the COP species generated under different pH conditions.	Dimethylformamide	99-102	caspase recruitment domain family member 16	Homo sapiens	153-156
27992673-6	2017	Steady-state and time-resolved (absorption and emission) studies performed on COP suspended in 6:4 DMF/H2 O have provided valuable information about the COP species generated under different pH conditions.	Water	103-107	caspase recruitment domain family member 16	Homo sapiens	78-81
27992673-6	2017	Steady-state and time-resolved (absorption and emission) studies performed on COP suspended in 6:4 DMF/H2 O have provided valuable information about the COP species generated under different pH conditions.	Water	103-107	caspase recruitment domain family member 16	Homo sapiens	153-156
27561380-0	2017	Decorating CoP and Pt Nanoparticles on Graphitic Carbon Nitride Nanosheets to Promote Overall Water Splitting by Conjugated Polymers.	Polymers	124-132	caspase recruitment domain family member 16	Homo sapiens	11-14
28001341-0	2017	Graphitic C3 N4 Decorated with CoP Co-catalyst: Enhanced and Stable Photocatalytic H2 Evolution Activity from Water under Visible-light Irradiation.	Water	110-115	caspase recruitment domain family member 16	Homo sapiens	31-34
28001341-1	2017	In this work, graphitic C3 N4 decorated with a CoP co-catalyst (g-C3 N4 /CoP) is reported for photocatalytic H2 evolution reaction based on two-step hydrothermal and phosphidation method.	Hydrogen	109-111	caspase recruitment domain family member 16	Homo sapiens	47-50
28001341-1	2017	In this work, graphitic C3 N4 decorated with a CoP co-catalyst (g-C3 N4 /CoP) is reported for photocatalytic H2 evolution reaction based on two-step hydrothermal and phosphidation method.	Hydrogen	109-111	caspase recruitment domain family member 16	Homo sapiens	73-76
28001341-6	2017	In addition, g-C3 N4 /CoP-3.4 % is an efficient photocatalyst for H2 evolution under irradiation with natural solar light.	Hydrogen	66-68	caspase recruitment domain family member 16	Homo sapiens	22-25
27561380-0	2017	Decorating CoP and Pt Nanoparticles on Graphitic Carbon Nitride Nanosheets to Promote Overall Water Splitting by Conjugated Polymers.	cyanogen	49-63	caspase recruitment domain family member 16	Homo sapiens	11-14
28001341-0	2017	Graphitic C3 N4 Decorated with CoP Co-catalyst: Enhanced and Stable Photocatalytic H2 Evolution Activity from Water under Visible-light Irradiation.	Hydrogen	83-85	caspase recruitment domain family member 16	Homo sapiens	31-34
28008444-0	2017	A robust and efficient catalyst of CdxZn1-xSe motivated by CoP for photocatalytic hydrogen evolution under sunlight irradiation.	Hydrogen	82-90	caspase recruitment domain family member 16	Homo sapiens	59-62
28008444-1	2017	CdxZn1-xSe/CoP composites have been well studied as effervescent photocatalysts for H2 evolution.	Hydrogen	84-86	caspase recruitment domain family member 16	Homo sapiens	11-14
28008444-4	2017	Advances in CdxZn1-xSe/CoP for photocatalytic H2 evolution provide a new strategy for future splitting of seawater.	Hydrogen	46-48	caspase recruitment domain family member 16	Homo sapiens	23-26
27561380-2	2017	Here, we show the first use of CoP and Pt nanoparticles as dual co-catalysts to modify graphitic carbon nitride (g-C3 N4 ) polymer to achieve overall water splitting under visible light irradiation.	graphitic carbon nitride (g-c3 n4 ) polymer	87-130	caspase recruitment domain family member 16	Homo sapiens	31-34
27561380-4	2017	This robust, abundant, and stable photocatalyst based on covalent organic frameworks is demonstrated to hold great promise by forming heterojunctions with CoP and Pt for catalyzing the direct splitting of water into stoichiometric H2 and O2 using energy from photons.	Water	205-210	caspase recruitment domain family member 16	Homo sapiens	155-158
27929145-0	2017	Highly efficient hydrolysis of ammonia borane by anion (-OH, F-, Cl-)-tuned interactions between reactant molecules and CoP nanoparticles.	Ammonia borane	31-45	caspase recruitment domain family member 16	Homo sapiens	120-123
27929145-0	2017	Highly efficient hydrolysis of ammonia borane by anion (-OH, F-, Cl-)-tuned interactions between reactant molecules and CoP nanoparticles.	-oh, f-, cl-	56-68	caspase recruitment domain family member 16	Homo sapiens	120-123
27929145-1	2017	The CoP nanoparticle catalyst had excellent catalytic activity and a short catalytic induction period in the presence of anions, and high sustainability in ammonia borane hydrolysis, with an initial turnover frequency of 72.2 mol(H2) mol(CoP)-1 min-1 at ambient temperature.	Ammonia borane	156-170	caspase recruitment domain family member 16	Homo sapiens	4-7
28799352-4	2016	First we test the half-cage order parameter (H-COP) which we developed for driving FFS, through conducting the pB histogram analysis.	CHEMBL1198227	83-86	caspase recruitment domain family member 16	Homo sapiens	47-50
27883154-11	2017	The Cop/Al2O3-16 catalyst possessing uniformly distributed cobalt, improved reducibility and large pores is the preferred choice to generate high catalytic activity, stability and C5+ selectivity.	Aluminum Oxide	8-13	caspase recruitment domain family member 16	Homo sapiens	4-7
27883154-11	2017	The Cop/Al2O3-16 catalyst possessing uniformly distributed cobalt, improved reducibility and large pores is the preferred choice to generate high catalytic activity, stability and C5+ selectivity.	Cobalt	59-65	caspase recruitment domain family member 16	Homo sapiens	4-7
27797162-0	2017	Fe-Doped CoP Nanoarray: A Monolithic Multifunctional Catalyst for Highly Efficient Hydrogen Generation.	Iron	0-2	caspase recruitment domain family member 16	Homo sapiens	9-12
27797162-0	2017	Fe-Doped CoP Nanoarray: A Monolithic Multifunctional Catalyst for Highly Efficient Hydrogen Generation.	Hydrogen	83-91	caspase recruitment domain family member 16	Homo sapiens	9-12
27797162-1	2017	An Fe-doped CoP nanoarray behaves as a robust 3D monolithic multifunctional catalyst for electrolytic and hydrolytic hydrogen evolution with high activity.	Iron	3-5	caspase recruitment domain family member 16	Homo sapiens	12-15
27797162-1	2017	An Fe-doped CoP nanoarray behaves as a robust 3D monolithic multifunctional catalyst for electrolytic and hydrolytic hydrogen evolution with high activity.	Hydrogen	117-125	caspase recruitment domain family member 16	Homo sapiens	12-15
28174380-0	2017	[Efficacy and Safety of THP-COP for Diffuse Large B-Cell Lymphoma].	pirarubicin	24-27	caspase recruitment domain family member 16	Homo sapiens	28-31
27146428-2	2016	In this letter, we demonstrate a cobalt phosphide nanowire array grown on a Ti mesh (CoP/TM) behaving as a bifunctional electrocatalyst for water splitting.	cobalt phosphide	33-49	caspase recruitment domain family member 16	Homo sapiens	85-88
27767019-3	2016	In this paper, we demonstrate that cobalt phosphide nanowall arrays supported on carbon cloth (CoP NAs/CC) efficiently catalyze the hydrolytic dehydrogenation of NaBH4 with an activation energy of 42.1 kJ mol-1 in alkaline media.	cobalt phosphide	35-51	caspase recruitment domain family member 16	Homo sapiens	95-98
27767019-3	2016	In this paper, we demonstrate that cobalt phosphide nanowall arrays supported on carbon cloth (CoP NAs/CC) efficiently catalyze the hydrolytic dehydrogenation of NaBH4 with an activation energy of 42.1 kJ mol-1 in alkaline media.	Carbon	81-87	caspase recruitment domain family member 16	Homo sapiens	95-98
27767019-3	2016	In this paper, we demonstrate that cobalt phosphide nanowall arrays supported on carbon cloth (CoP NAs/CC) efficiently catalyze the hydrolytic dehydrogenation of NaBH4 with an activation energy of 42.1 kJ mol-1 in alkaline media.	sodium borohydride	162-167	caspase recruitment domain family member 16	Homo sapiens	95-98
27767019-4	2016	These monolithic CoP NAs/CC show a maximum hydrogen generation rate of [Formula: see text] and are robust with superior durability and reusability.	Hydrogen	43-51	caspase recruitment domain family member 16	Homo sapiens	17-20
27791208-1	2016	In this present study, a series of cobalt porphyrin-based conjugated mesoporous polymers (CoP-nph-CMP, n = 2, 3, 4) were fabricated as catalyst precursors to generate bifunctional catalysts via pyrolysis (CoP-nph-CMP-800, n = 2, 3, 4) for both the oxygen evolution reaction (OER) and the hydrogen evolution reaction (HER).	cobalt porphyrin	35-51	caspase recruitment domain family member 16	Homo sapiens	90-93
27791208-1	2016	In this present study, a series of cobalt porphyrin-based conjugated mesoporous polymers (CoP-nph-CMP, n = 2, 3, 4) were fabricated as catalyst precursors to generate bifunctional catalysts via pyrolysis (CoP-nph-CMP-800, n = 2, 3, 4) for both the oxygen evolution reaction (OER) and the hydrogen evolution reaction (HER).	cobalt porphyrin	35-51	caspase recruitment domain family member 16	Homo sapiens	205-208
27791208-1	2016	In this present study, a series of cobalt porphyrin-based conjugated mesoporous polymers (CoP-nph-CMP, n = 2, 3, 4) were fabricated as catalyst precursors to generate bifunctional catalysts via pyrolysis (CoP-nph-CMP-800, n = 2, 3, 4) for both the oxygen evolution reaction (OER) and the hydrogen evolution reaction (HER).	mesoporous	69-79	caspase recruitment domain family member 16	Homo sapiens	90-93
27791208-1	2016	In this present study, a series of cobalt porphyrin-based conjugated mesoporous polymers (CoP-nph-CMP, n = 2, 3, 4) were fabricated as catalyst precursors to generate bifunctional catalysts via pyrolysis (CoP-nph-CMP-800, n = 2, 3, 4) for both the oxygen evolution reaction (OER) and the hydrogen evolution reaction (HER).	mesoporous	69-79	caspase recruitment domain family member 16	Homo sapiens	205-208
27791208-1	2016	In this present study, a series of cobalt porphyrin-based conjugated mesoporous polymers (CoP-nph-CMP, n = 2, 3, 4) were fabricated as catalyst precursors to generate bifunctional catalysts via pyrolysis (CoP-nph-CMP-800, n = 2, 3, 4) for both the oxygen evolution reaction (OER) and the hydrogen evolution reaction (HER).	Oxygen	248-254	caspase recruitment domain family member 16	Homo sapiens	90-93
27791208-1	2016	In this present study, a series of cobalt porphyrin-based conjugated mesoporous polymers (CoP-nph-CMP, n = 2, 3, 4) were fabricated as catalyst precursors to generate bifunctional catalysts via pyrolysis (CoP-nph-CMP-800, n = 2, 3, 4) for both the oxygen evolution reaction (OER) and the hydrogen evolution reaction (HER).	Hydrogen	288-296	caspase recruitment domain family member 16	Homo sapiens	90-93
27671347-1	2016	In this letter, we report on the use of a cobalt phosphide nanowall array on conductive carbon cloth (CoP NA/CC) as an efficient catalyst electrode for methanol electro-oxidation under alkaline conditions.	cobalt phosphide	42-58	caspase recruitment domain family member 16	Homo sapiens	102-105
27671347-1	2016	In this letter, we report on the use of a cobalt phosphide nanowall array on conductive carbon cloth (CoP NA/CC) as an efficient catalyst electrode for methanol electro-oxidation under alkaline conditions.	Carbon	88-94	caspase recruitment domain family member 16	Homo sapiens	102-105
27671347-1	2016	In this letter, we report on the use of a cobalt phosphide nanowall array on conductive carbon cloth (CoP NA/CC) as an efficient catalyst electrode for methanol electro-oxidation under alkaline conditions.	Methanol	152-160	caspase recruitment domain family member 16	Homo sapiens	102-105
27671347-2	2016	This CoP NA/CC achieves a current density of 96 mA cm(-2) toward 0.5 M methanol at 0.5 V (versus a saturated calomel electrode (SCE)) in 1 M KOH.	Methanol	71-79	caspase recruitment domain family member 16	Homo sapiens	5-8
27671347-2	2016	This CoP NA/CC achieves a current density of 96 mA cm(-2) toward 0.5 M methanol at 0.5 V (versus a saturated calomel electrode (SCE)) in 1 M KOH.	potassium hydroxide	141-144	caspase recruitment domain family member 16	Homo sapiens	5-8
27553782-2	2016	We report a novel electrocatalyst based on a three-dimensional (3D) graphene aerogel decorated with cobalt phosphide nanoparticles (CoP/GA).	Graphite	68-76	caspase recruitment domain family member 16	Homo sapiens	132-135
27553782-2	2016	We report a novel electrocatalyst based on a three-dimensional (3D) graphene aerogel decorated with cobalt phosphide nanoparticles (CoP/GA).	cobalt phosphide	100-116	caspase recruitment domain family member 16	Homo sapiens	132-135
27731623-0	2016	One-Step Electrodeposition of Co/CoP Film on Ni Foam for Efficient Hydrogen Evolution in Alkaline Solution.	Hydrogen	67-75	caspase recruitment domain family member 16	Homo sapiens	33-36
27731623-3	2016	Herein, a crystalline/amorphous Co/CoP film was facilely prepared on nickel foam (NF) by a one-step electrodeposition technique at room temperature, named Co/CoP-NF.	Nickel	69-75	caspase recruitment domain family member 16	Homo sapiens	35-38
27731623-3	2016	Herein, a crystalline/amorphous Co/CoP film was facilely prepared on nickel foam (NF) by a one-step electrodeposition technique at room temperature, named Co/CoP-NF.	Nickel	69-75	caspase recruitment domain family member 16	Homo sapiens	158-161
27731623-4	2016	The as-prepared Co/CoP-NF electrocatalyst exhibits excellent electrocatalytic activity for HER, on par with Pt/C, showing a low overpotential of 35 mV at a current density of 10 mA cm-2 and small Tafel slope of 71 mV dec-1 in 1.0 M NaOH solution.	Sodium Hydroxide	232-236	caspase recruitment domain family member 16	Homo sapiens	19-22
27676264-4	2016	Density functional theory calculations further reveal that Fe substitution of Co in CoP leads to more optimal free energy of hydrogen adsorption to the catalyst surface.	Iron	59-61	caspase recruitment domain family member 16	Homo sapiens	84-87
27676264-4	2016	Density functional theory calculations further reveal that Fe substitution of Co in CoP leads to more optimal free energy of hydrogen adsorption to the catalyst surface.	Cobalt	78-80	caspase recruitment domain family member 16	Homo sapiens	84-87
27676264-4	2016	Density functional theory calculations further reveal that Fe substitution of Co in CoP leads to more optimal free energy of hydrogen adsorption to the catalyst surface.	Hydrogen	125-133	caspase recruitment domain family member 16	Homo sapiens	84-87
27386800-1	2016	In this letter, we demonstrate for the first time that cobalt phosphide nanowires (CoP NWs) exhibit remarkable catalytic activity toward electrochemical detection of hydrogen peroxide (H2O2).	cobalt phosphide	55-71	caspase recruitment domain family member 16	Homo sapiens	83-86
27386800-1	2016	In this letter, we demonstrate for the first time that cobalt phosphide nanowires (CoP NWs) exhibit remarkable catalytic activity toward electrochemical detection of hydrogen peroxide (H2O2).	Hydrogen Peroxide	166-183	caspase recruitment domain family member 16	Homo sapiens	83-86
27386800-1	2016	In this letter, we demonstrate for the first time that cobalt phosphide nanowires (CoP NWs) exhibit remarkable catalytic activity toward electrochemical detection of hydrogen peroxide (H2O2).	Hydrogen Peroxide	185-189	caspase recruitment domain family member 16	Homo sapiens	83-86
27386800-2	2016	As an enzymeless H2O2 sensor, such CoP NWs show a fast amperometric response within 5 s and a low detection limit of 0.48 muM.	Hydrogen Peroxide	17-21	caspase recruitment domain family member 16	Homo sapiens	35-38
27038041-3	2016	Here, a focused, concise review on the synthesis of EFGs is presented, along with their 2D covalent organic polymer (2D COP) analogues, as energy materials.	efgs	52-56	caspase recruitment domain family member 16	Homo sapiens	120-123
27146428-2	2016	In this letter, we demonstrate a cobalt phosphide nanowire array grown on a Ti mesh (CoP/TM) behaving as a bifunctional electrocatalyst for water splitting.	Water	140-145	caspase recruitment domain family member 16	Homo sapiens	85-88
27146428-3	2016	The CoP/TM electrode delivers 10 mA cm(-2) at an overpotential of 72 mV for the hydrogen evolution reaction (HER) and 310 mV for the oxygen evolution reaction (OER) in 1.0 M KOH.	Hydrogen	80-88	caspase recruitment domain family member 16	Homo sapiens	4-7
27181021-0	2016	Hollow CoP nanopaticle/N-doped graphene hybrids as highly active and stable bifunctional catalysts for full water splitting.	Graphite	31-39	caspase recruitment domain family member 16	Homo sapiens	7-10
27146428-3	2016	The CoP/TM electrode delivers 10 mA cm(-2) at an overpotential of 72 mV for the hydrogen evolution reaction (HER) and 310 mV for the oxygen evolution reaction (OER) in 1.0 M KOH.	Oxygen	133-139	caspase recruitment domain family member 16	Homo sapiens	4-7
27181021-0	2016	Hollow CoP nanopaticle/N-doped graphene hybrids as highly active and stable bifunctional catalysts for full water splitting.	Water	108-113	caspase recruitment domain family member 16	Homo sapiens	7-10
27146428-3	2016	The CoP/TM electrode delivers 10 mA cm(-2) at an overpotential of 72 mV for the hydrogen evolution reaction (HER) and 310 mV for the oxygen evolution reaction (OER) in 1.0 M KOH.	potassium hydroxide	174-177	caspase recruitment domain family member 16	Homo sapiens	4-7
27166954-2	2016	The dCOP is defined as a virtual point on the ground, where the moment around the body center of mass (COM) becomes zero when dCOP and the measured COP (mCOP) coincide.	dcop	126-130	caspase recruitment domain family member 16	Homo sapiens	5-8
26983853-1	2016	Water-dispersible upconversion nanoparticles (beta-NaYF4:Yb(3+),Er(3+), UCNP) coated with a thin shell of a biocompatible copolymer comprising 2-hydroxyethylmethacrylate (HEMA) and 2-acrylamido-2-methyl-1-propanesulphonsulphonic acid (AMPS), which we will term COP, have been prepared by multidentate grafting.	Water	0-5	caspase recruitment domain family member 16	Homo sapiens	261-264
26983853-3	2016	The additional functionality of the smart UCNP@COP nanosystem has been proved by its association to a well-known photosensitizer (namely, methylene blue, MB).	Methylene Blue	138-152	caspase recruitment domain family member 16	Homo sapiens	47-50
28453041-8	2016	Conclusions Supplying calcium to all pregnant women from week 14 of gestation is a dominant alternative compared to no intervention, which saves 200 LYG, while it decreases costs to the order of COP$5 933 million per 100.000 pregnant women.	Calcium	22-29	caspase recruitment domain family member 16	Homo sapiens	195-198
29899902-0	2016	Metal-organic framework-based CoP/reduced graphene oxide: high-performance bifunctional electrocatalyst for overall water splitting.	Metals	0-5	caspase recruitment domain family member 16	Homo sapiens	30-33
26811938-2	2016	Herein, we report that nanoarrays of CoP supported on carbon cloth are an efficient bifunctional catalyst for overall water splitting.	Carbon	54-60	caspase recruitment domain family member 16	Homo sapiens	37-40
26811938-2	2016	Herein, we report that nanoarrays of CoP supported on carbon cloth are an efficient bifunctional catalyst for overall water splitting.	Water	118-123	caspase recruitment domain family member 16	Homo sapiens	37-40
26811938-4	2016	During electrocatalysis, the surface of the CoP catalyst was covered with a layer of CoOx , which was the active species.	coox	85-89	caspase recruitment domain family member 16	Homo sapiens	44-47
26711014-2	2016	A kind of hollow polyhedral cobalt phosphide (CoP hollow polyhedron) is developed as efficient bifunctional electrocatalysts for HER and OER templated by Co-centered metal-organic frameworks.	cobalt phosphide	28-44	caspase recruitment domain family member 16	Homo sapiens	46-49
29899902-0	2016	Metal-organic framework-based CoP/reduced graphene oxide: high-performance bifunctional electrocatalyst for overall water splitting.	Water	116-121	caspase recruitment domain family member 16	Homo sapiens	30-33
29899902-2	2016	In this work, with rationally designed sandwich-type metal-organic framework/graphene oxide as a template and precursor, a layered CoP/reduced graphene oxide (rGO) composite has been successfully prepared via pyrolysis and a subsequent phosphating process.	Metals	53-58	caspase recruitment domain family member 16	Homo sapiens	131-134
29899902-2	2016	In this work, with rationally designed sandwich-type metal-organic framework/graphene oxide as a template and precursor, a layered CoP/reduced graphene oxide (rGO) composite has been successfully prepared via pyrolysis and a subsequent phosphating process.	graphene oxide	77-91	caspase recruitment domain family member 16	Homo sapiens	131-134
29899902-2	2016	In this work, with rationally designed sandwich-type metal-organic framework/graphene oxide as a template and precursor, a layered CoP/reduced graphene oxide (rGO) composite has been successfully prepared via pyrolysis and a subsequent phosphating process.	graphene oxide	143-157	caspase recruitment domain family member 16	Homo sapiens	131-134
26642257-0	2015	Ultrafine CoP Nanoparticles Supported on Carbon Nanotubes as Highly Active Electrocatalyst for Both Oxygen and Hydrogen Evolution in Basic Media.	Carbon	41-47	caspase recruitment domain family member 16	Homo sapiens	10-13
26861099-6	2016	She achieved complete remission after six courses of biweekly THP-COP therapy, to which field radiation (39.6 Gy) was added.	pirarubicin	62-65	caspase recruitment domain family member 16	Homo sapiens	66-69
26642257-0	2015	Ultrafine CoP Nanoparticles Supported on Carbon Nanotubes as Highly Active Electrocatalyst for Both Oxygen and Hydrogen Evolution in Basic Media.	Oxygen	100-106	caspase recruitment domain family member 16	Homo sapiens	10-13
26642257-0	2015	Ultrafine CoP Nanoparticles Supported on Carbon Nanotubes as Highly Active Electrocatalyst for Both Oxygen and Hydrogen Evolution in Basic Media.	Hydrogen	111-119	caspase recruitment domain family member 16	Homo sapiens	10-13
26725355-0	2015	[Langerhans cell sarcoma developing acute myeloid leukemia after achieving complete response by THP-COP].	pirarubicin	96-99	caspase recruitment domain family member 16	Homo sapiens	100-103
26809312-3	2015	The Japanese man was diagnosed with diffuse large B-cell lymphoma, and underwent chemotherapy treatment with THP-COP (cyclophosphamide, pirarubicin, vincristine, and prednisolone).	Cyclophosphamide	118-134	caspase recruitment domain family member 16	Homo sapiens	113-116
26725355-4	2015	Because of the patient"s age, he was administered a regimen of cyclophosphamide, pirarubicin, vincristine, and prednisolone (THP-COP), and achieved a partial response after six courses.	Prednisolone	111-123	caspase recruitment domain family member 16	Homo sapiens	129-132
26725355-5	2015	However, he developed acute myeloid leukemia (AML) 11 months after completion of the THP-COP therapy, and received only supportive care until his death.	pirarubicin	85-88	caspase recruitment domain family member 16	Homo sapiens	89-92
25950176-5	2015	In sub-analyses by tumor stage (I, II, IIIA), a significant association was found between DFS and OS and level of COP-NLR in each subgroup (P<0.001, P=0.002, P<0.001 for DFS, respectively; P<0.001, P=0.001, P<0.001 for OS).	aspartyl-phenylalanine	90-93	caspase recruitment domain family member 16	Homo sapiens	114-117
25913814-1	2015	A highly efficient and robust heterogeneous photocatalytic hydrogen evolution system was established for the first time by using the CoP/CdS hybrid catalyst in water under solar irradiation.	Hydrogen	59-67	caspase recruitment domain family member 16	Homo sapiens	133-136
25913814-1	2015	A highly efficient and robust heterogeneous photocatalytic hydrogen evolution system was established for the first time by using the CoP/CdS hybrid catalyst in water under solar irradiation.	Water	160-165	caspase recruitment domain family member 16	Homo sapiens	133-136
26263333-2	2015	The CoP-coated (2.0 mg cm(-2)) n(+)p-Si MW photocathodes were stable for over 12 h of continuous operation and produced an open-circuit photovoltage (Voc) of 0.48 V, a light-limited photocurrent density (Jph) of 17 mA cm(-2), a fill factor (ff) of 0.24, and an ideal regenerative cell efficiency (etaIRC) of 1.9% under simulated 1 Sun illumination.	Nitrogen	31-32	caspase recruitment domain family member 16	Homo sapiens	4-7
26329631-9	2015	The patient was treated with rituximab, tetrahydropyranyl adriamycin, cyclophosphamide, vincristine, and predonisone (R-THP-COP) and is doing well without recurrence of lymphoma at 18-month follow-up.	predonisone	105-116	caspase recruitment domain family member 16	Homo sapiens	124-127
26329631-9	2015	The patient was treated with rituximab, tetrahydropyranyl adriamycin, cyclophosphamide, vincristine, and predonisone (R-THP-COP) and is doing well without recurrence of lymphoma at 18-month follow-up.	R-tetrahydropapaverine HCl	118-123	caspase recruitment domain family member 16	Homo sapiens	124-127
25950176-5	2015	In sub-analyses by tumor stage (I, II, IIIA), a significant association was found between DFS and OS and level of COP-NLR in each subgroup (P<0.001, P=0.002, P<0.001 for DFS, respectively; P<0.001, P=0.001, P<0.001 for OS).	Osmium	98-100	caspase recruitment domain family member 16	Homo sapiens	114-117
25950176-5	2015	In sub-analyses by tumor stage (I, II, IIIA), a significant association was found between DFS and OS and level of COP-NLR in each subgroup (P<0.001, P=0.002, P<0.001 for DFS, respectively; P<0.001, P=0.001, P<0.001 for OS).	aspartyl-phenylalanine	176-179	caspase recruitment domain family member 16	Homo sapiens	114-117
25950176-5	2015	In sub-analyses by tumor stage (I, II, IIIA), a significant association was found between DFS and OS and level of COP-NLR in each subgroup (P<0.001, P=0.002, P<0.001 for DFS, respectively; P<0.001, P=0.001, P<0.001 for OS).	Osmium	231-233	caspase recruitment domain family member 16	Homo sapiens	114-117
25677032-10	2015	Strong weight distribution asymmetry was found in children with an AGPP, which induced larger lateral-medial CoP displacements compared with children with scoliosis.	agpp	67-71	caspase recruitment domain family member 16	Homo sapiens	109-112
25721096-2	2015	Cobalt-phosphorus nanowires (CoP NWs) show a high fluorescence quenching ability and different affinity toward single- versus double-stranded DNA.	cobalt-phosphorus	0-17	caspase recruitment domain family member 16	Homo sapiens	29-32
25721096-5	2015	The photoinduced electron transfer from the excited dye that labels the oligonucleotide probe to the CoP semiconductor led to efficient fluorescence quenching, and largely enhanced the photocatalytic evolution of hydrogen from water under visible light.	Oligonucleotides	72-87	caspase recruitment domain family member 16	Homo sapiens	101-104
25721096-5	2015	The photoinduced electron transfer from the excited dye that labels the oligonucleotide probe to the CoP semiconductor led to efficient fluorescence quenching, and largely enhanced the photocatalytic evolution of hydrogen from water under visible light.	Hydrogen	213-221	caspase recruitment domain family member 16	Homo sapiens	101-104
25721096-5	2015	The photoinduced electron transfer from the excited dye that labels the oligonucleotide probe to the CoP semiconductor led to efficient fluorescence quenching, and largely enhanced the photocatalytic evolution of hydrogen from water under visible light.	Water	227-232	caspase recruitment domain family member 16	Homo sapiens	101-104
24519501-0	2015	Biweekly THP-COP therapy for newly diagnosed peripheral T-cell lymphoma patients.	pirarubicin	9-12	caspase recruitment domain family member 16	Homo sapiens	13-16
25830680-2	2015	The excipient (Cop-CM) consists of chitin and mannitol.	Chitin	35-41	caspase recruitment domain family member 16	Homo sapiens	15-18
25830680-2	2015	The excipient (Cop-CM) consists of chitin and mannitol.	Mannitol	46-54	caspase recruitment domain family member 16	Homo sapiens	15-18
25830680-7	2015	Montelukast sodium and domperidone ODTs produced, using Cop-CM, displayed excellent physicochemical properties.	montelukast	0-18	caspase recruitment domain family member 16	Homo sapiens	56-59
25830680-7	2015	Montelukast sodium and domperidone ODTs produced, using Cop-CM, displayed excellent physicochemical properties.	domperidone odts	23-39	caspase recruitment domain family member 16	Homo sapiens	56-59
24519501-7	2015	All patients received six cycles of biweekly THP-COP.	pirarubicin	45-48	caspase recruitment domain family member 16	Homo sapiens	49-52
24519501-14	2015	Biweekly THP-COP is a safe and promising therapy for patients with newly diagnosed PTCL.	pirarubicin	9-12	caspase recruitment domain family member 16	Homo sapiens	13-16
25231738-0	2015	Simulating the dynamics of polycyclic aromatic hydrocarbon (PAH) in contaminated soil through composting by COP-Compost model.	Polycyclic Aromatic Hydrocarbons	27-58	caspase recruitment domain family member 16	Homo sapiens	108-111
25231738-0	2015	Simulating the dynamics of polycyclic aromatic hydrocarbon (PAH) in contaminated soil through composting by COP-Compost model.	Polycyclic Aromatic Hydrocarbons	60-63	caspase recruitment domain family member 16	Homo sapiens	108-111
25231738-2	2015	In this work, integration of the dynamics of organic carbon (OC) and OPs in an overall experimental framework is first proposed and adopted to validate the applicability of the COP-Compost model and to calibrate the model parameters on the basis of what has been achieved with the COP-Compost model.	Carbon	53-59	caspase recruitment domain family member 16	Homo sapiens	177-180
25231738-3	2015	The COP-Compost model was evaluated via composting experiments containing 16 US Environmental Protection Agency (USEPA) polycyclic aromatic hydrocarbons (PAHs) and the sorption coefficient (Kd) values of two types of OP: fluorenthene (FLT) and pyrene (PHE).	Polycyclic Aromatic Hydrocarbons	120-152	caspase recruitment domain family member 16	Homo sapiens	4-7
25231738-3	2015	The COP-Compost model was evaluated via composting experiments containing 16 US Environmental Protection Agency (USEPA) polycyclic aromatic hydrocarbons (PAHs) and the sorption coefficient (Kd) values of two types of OP: fluorenthene (FLT) and pyrene (PHE).	Polycyclic Aromatic Hydrocarbons	154-158	caspase recruitment domain family member 16	Homo sapiens	4-7
25231738-3	2015	The COP-Compost model was evaluated via composting experiments containing 16 US Environmental Protection Agency (USEPA) polycyclic aromatic hydrocarbons (PAHs) and the sorption coefficient (Kd) values of two types of OP: fluorenthene (FLT) and pyrene (PHE).	fluorenthene	221-233	caspase recruitment domain family member 16	Homo sapiens	4-7
25231738-3	2015	The COP-Compost model was evaluated via composting experiments containing 16 US Environmental Protection Agency (USEPA) polycyclic aromatic hydrocarbons (PAHs) and the sorption coefficient (Kd) values of two types of OP: fluorenthene (FLT) and pyrene (PHE).	alovudine	235-238	caspase recruitment domain family member 16	Homo sapiens	4-7
25231738-3	2015	The COP-Compost model was evaluated via composting experiments containing 16 US Environmental Protection Agency (USEPA) polycyclic aromatic hydrocarbons (PAHs) and the sorption coefficient (Kd) values of two types of OP: fluorenthene (FLT) and pyrene (PHE).	pyrene	244-250	caspase recruitment domain family member 16	Homo sapiens	4-7
25231738-3	2015	The COP-Compost model was evaluated via composting experiments containing 16 US Environmental Protection Agency (USEPA) polycyclic aromatic hydrocarbons (PAHs) and the sorption coefficient (Kd) values of two types of OP: fluorenthene (FLT) and pyrene (PHE).	Phenylalanine	252-255	caspase recruitment domain family member 16	Homo sapiens	4-7
26388535-3	2015	A low cost COP with a high specific surface area is suitable for PEI loading to achieve high CO2 adsorption, and the optimal PEI loading is 36 wt%.	Carbon Dioxide	93-96	caspase recruitment domain family member 16	Homo sapiens	11-14
25562373-0	2015	Surface interrogation of CoP(i) water oxidation catalyst by scanning electrochemical microscopy.	Water	32-37	caspase recruitment domain family member 16	Homo sapiens	25-28
25791416-10	2015	Competitive oligonucleotide priming-PCR (COP-PCR) was performed to distinguish SMN1 and SMN2 exon7.	Oligonucleotides	12-27	caspase recruitment domain family member 16	Homo sapiens	41-44
25273924-5	2015	In addition, a significant increase in the COP trajectory peak (pkcopx) was seen in the DT versus ST condition.	Thymidine	88-90	caspase recruitment domain family member 16	Homo sapiens	43-46
24830333-1	2014	In this Communication, we report the topotactic fabrication of self-supported nanoporous cobalt phosphide nanowire arrays on carbon cloth (CoP/CC) via low-temperature phosphidation of the corresponding Co(OH)F/CC precursor.	cobalt phosphide	89-105	caspase recruitment domain family member 16	Homo sapiens	139-142
25407336-1	2014	The electrocatalytic proton reduction activity of a Ni bis(diphosphine) (NiP) and a cobaloxime (CoP) catalyst has been studied in water in the presence of the gaseous inhibitors O2 and CO.	cobaloxime	84-94	caspase recruitment domain family member 16	Homo sapiens	96-99
25407336-1	2014	The electrocatalytic proton reduction activity of a Ni bis(diphosphine) (NiP) and a cobaloxime (CoP) catalyst has been studied in water in the presence of the gaseous inhibitors O2 and CO.	Water	130-135	caspase recruitment domain family member 16	Homo sapiens	96-99
25407336-1	2014	The electrocatalytic proton reduction activity of a Ni bis(diphosphine) (NiP) and a cobaloxime (CoP) catalyst has been studied in water in the presence of the gaseous inhibitors O2 and CO.	Oxygen	178-180	caspase recruitment domain family member 16	Homo sapiens	96-99
25407336-1	2014	The electrocatalytic proton reduction activity of a Ni bis(diphosphine) (NiP) and a cobaloxime (CoP) catalyst has been studied in water in the presence of the gaseous inhibitors O2 and CO.	Carbon Monoxide	185-187	caspase recruitment domain family member 16	Homo sapiens	96-99
25407336-2	2014	CoP shows an appreciable tolerance towards O2, but its activity suffers severely in the presence of CO.	Oxygen	43-45	caspase recruitment domain family member 16	Homo sapiens	0-3
25407336-2	2014	CoP shows an appreciable tolerance towards O2, but its activity suffers severely in the presence of CO.	Carbon Monoxide	100-102	caspase recruitment domain family member 16	Homo sapiens	0-3
24845625-3	2014	A nanohybrid that consists of carbon nanotubes decorated with CoP nanocrystals (CoP/CNT) was prepared by the low-temperature phosphidation of a Co3O4/CNT precursor.	co3o4	144-149	caspase recruitment domain family member 16	Homo sapiens	62-65
25389458-10	2014	The 5-year CSS in patients with COP-NLR0, 1, and 2 was 51.8%, 27.0%, and 11.6%, respectively (P < .001).	thiocysteine	11-14	caspase recruitment domain family member 16	Homo sapiens	32-35
25036995-6	2014	FTIR (Fourier transform infrared spectroscopy) scans provided evidences of the existence of chemical reactions involving phosphorus, as revealed by a new absorption band from 1060 to 1180cm(-1), related to COP vibrations.	Phosphorus	121-131	caspase recruitment domain family member 16	Homo sapiens	206-209
25018099-0	2014	Three-dimensional interconnected network of nanoporous CoP nanowires as an efficient hydrogen evolution cathode.	Hydrogen	85-93	caspase recruitment domain family member 16	Homo sapiens	55-58
25018099-1	2014	For the first time we demonstrate the topotactic synthesis of a three-dimensional (3D) interconnected network of nanoporous CoP nanowires directly on a Ti substrate (np-CoP NWs/Ti) via low-temperature phosphidation of a Co2(OH)2(CO3)2/Ti precursor and its further use as a highly efficient hydrogen evolution cathode.	co2(oh)2(co3)2	220-234	caspase recruitment domain family member 16	Homo sapiens	124-127
25018099-1	2014	For the first time we demonstrate the topotactic synthesis of a three-dimensional (3D) interconnected network of nanoporous CoP nanowires directly on a Ti substrate (np-CoP NWs/Ti) via low-temperature phosphidation of a Co2(OH)2(CO3)2/Ti precursor and its further use as a highly efficient hydrogen evolution cathode.	Hydrogen	290-298	caspase recruitment domain family member 16	Homo sapiens	124-127
24830333-1	2014	In this Communication, we report the topotactic fabrication of self-supported nanoporous cobalt phosphide nanowire arrays on carbon cloth (CoP/CC) via low-temperature phosphidation of the corresponding Co(OH)F/CC precursor.	carbon cloth	125-137	caspase recruitment domain family member 16	Homo sapiens	139-142
24830333-1	2014	In this Communication, we report the topotactic fabrication of self-supported nanoporous cobalt phosphide nanowire arrays on carbon cloth (CoP/CC) via low-temperature phosphidation of the corresponding Co(OH)F/CC precursor.	co(oh)f	202-209	caspase recruitment domain family member 16	Homo sapiens	139-142
24830333-2	2014	The CoP/CC, as a robust integrated 3D hydrogen-evolving cathode, shows a low onset overpotential of 38 mV and a small Tafel slope of 51 mV dec(-1), and it maintains its catalytic activity for at least 80,00 s in acidic media.	Hydrogen	38-46	caspase recruitment domain family member 16	Homo sapiens	4-7
24717022-6	2014	Compared to similar systems in which monomeric porphyrins are simply physisorbed, MWNT-CoP hybrids showed a higher ORR activity associated with a number of exchanged electrons close to four, corresponding to the complete reduction of oxygen into water.	Porphyrins	47-57	caspase recruitment domain family member 16	Homo sapiens	87-90
24620937-0	2014	Skeletal muscle reactive oxygen species: a target of good cop/bad cop for exercise and disease.	Reactive Oxygen Species	16-39	caspase recruitment domain family member 16	Homo sapiens	58-61
24620937-0	2014	Skeletal muscle reactive oxygen species: a target of good cop/bad cop for exercise and disease.	Reactive Oxygen Species	16-39	caspase recruitment domain family member 16	Homo sapiens	66-69
24729482-1	2014	Nanoparticles of cobalt phosphide, CoP, have been prepared and evaluated as electrocatalysts for the hydrogen evolution reaction (HER) under strongly acidic conditions (0.50 M H2SO4, pH 0.3).	cobalt phosphide	17-33	caspase recruitment domain family member 16	Homo sapiens	35-38
24729482-1	2014	Nanoparticles of cobalt phosphide, CoP, have been prepared and evaluated as electrocatalysts for the hydrogen evolution reaction (HER) under strongly acidic conditions (0.50 M H2SO4, pH 0.3).	Hydrogen	101-109	caspase recruitment domain family member 16	Homo sapiens	35-38
24729482-2	2014	Uniform, multi-faceted CoP nanoparticles were synthesized by reacting Co nanoparticles with trioctylphosphine.	TRIOCTYLPHOSPHINE	92-109	caspase recruitment domain family member 16	Homo sapiens	23-26
24729482-4	2014	The CoP/Ti electrodes were stable over 24 h of sustained hydrogen production in 0.50 M H2SO4.	Hydrogen	57-65	caspase recruitment domain family member 16	Homo sapiens	4-7
24729482-4	2014	The CoP/Ti electrodes were stable over 24 h of sustained hydrogen production in 0.50 M H2SO4.	sulfuric acid	87-92	caspase recruitment domain family member 16	Homo sapiens	4-7
24717022-6	2014	Compared to similar systems in which monomeric porphyrins are simply physisorbed, MWNT-CoP hybrids showed a higher ORR activity associated with a number of exchanged electrons close to four, corresponding to the complete reduction of oxygen into water.	Oxygen	234-240	caspase recruitment domain family member 16	Homo sapiens	87-90
24717022-6	2014	Compared to similar systems in which monomeric porphyrins are simply physisorbed, MWNT-CoP hybrids showed a higher ORR activity associated with a number of exchanged electrons close to four, corresponding to the complete reduction of oxygen into water.	Water	246-251	caspase recruitment domain family member 16	Homo sapiens	87-90
24568676-6	2014	Cobalt phosphide, CoP, is formed on Co/CNTs and Co(3)O4/CNTs, whereas iron phosphide, FeP, is formed on Fe2O3/CNTs.	cobalt phosphide	0-16	caspase recruitment domain family member 16	Homo sapiens	18-21
24568676-6	2014	Cobalt phosphide, CoP, is formed on Co/CNTs and Co(3)O4/CNTs, whereas iron phosphide, FeP, is formed on Fe2O3/CNTs.	co(3)o4	48-55	caspase recruitment domain family member 16	Homo sapiens	18-21
23871021-7	2013	7-Ketocholesterol was the main COP in most cases during the whole heating treatment.	7-ketocholesterol	0-17	caspase recruitment domain family member 16	Homo sapiens	31-34
24842200-6	2014	During CPB, COP was reduced by 22% in the HES-group [(16.7 +- 3.9) vs (21.5 +- 2.2) mmHg, P < 0.05] while it was reduced by more than 50% of the pre-CPB value [10.7 +- 2.0 vs (22.7 +- 1.9) mmHg, P < 0.05] in the crystalloid group (P < 0.05 HES-group vs. crystalloid group).	Hydroxyethyl Starch Derivatives	42-45	caspase recruitment domain family member 16	Homo sapiens	12-15
24842200-6	2014	During CPB, COP was reduced by 22% in the HES-group [(16.7 +- 3.9) vs (21.5 +- 2.2) mmHg, P < 0.05] while it was reduced by more than 50% of the pre-CPB value [10.7 +- 2.0 vs (22.7 +- 1.9) mmHg, P < 0.05] in the crystalloid group (P < 0.05 HES-group vs. crystalloid group).	cpb	7-10	caspase recruitment domain family member 16	Homo sapiens	12-15
24132521-3	2014	A COP-Compost model, which couples an organic carbon (OC) module and an organic pollutant (OP) module and which simulates the changes of organic matter, organic pollutants and the microbial activities during the composting process, has been proposed and calibrated for a first set of OP in a previous study.	Carbon	46-52	caspase recruitment domain family member 16	Homo sapiens	2-5
24178232-4	2013	In addition, flexible, transparent, patterned COP slides have been prepared and loaded with proteins ranging from 15 pM to 15 muM TRITC-BSA.	tritc-bsa	130-139	caspase recruitment domain family member 16	Homo sapiens	46-49
23588684-2	2013	In particular, both cop and czc operons are regulated by TCRS; the cop operon plays a key role in bacterial tolerance to copper, whereas the czc operon is involved in the efflux of cadmium, zinc, and cobalt from the cell.	Cadmium	181-188	caspase recruitment domain family member 16	Homo sapiens	67-70
24393897-8	2013	The patient was hospitalized to receive pirarubicin hydrochloride, cyclophosphamide, vincristine sulfate, and prednisolone (THP-COP) therapy.	Prednisolone	110-122	caspase recruitment domain family member 16	Homo sapiens	128-131
23691917-3	2013	Some reports describe that the scission of COP-coated vesicles is dependent on GTP hydrolysis, whereas others found that GTP hydrolysis is not required.	Guanosine Triphosphate	79-82	caspase recruitment domain family member 16	Homo sapiens	43-46
23588684-2	2013	In particular, both cop and czc operons are regulated by TCRS; the cop operon plays a key role in bacterial tolerance to copper, whereas the czc operon is involved in the efflux of cadmium, zinc, and cobalt from the cell.	Copper	121-127	caspase recruitment domain family member 16	Homo sapiens	20-23
23588684-2	2013	In particular, both cop and czc operons are regulated by TCRS; the cop operon plays a key role in bacterial tolerance to copper, whereas the czc operon is involved in the efflux of cadmium, zinc, and cobalt from the cell.	Copper	121-127	caspase recruitment domain family member 16	Homo sapiens	67-70
23588684-2	2013	In particular, both cop and czc operons are regulated by TCRS; the cop operon plays a key role in bacterial tolerance to copper, whereas the czc operon is involved in the efflux of cadmium, zinc, and cobalt from the cell.	Cadmium	181-188	caspase recruitment domain family member 16	Homo sapiens	20-23
24171046-6	2013	The patient received six cycles of chemotherapy with a combination of cyclophosphamide, vincristine, and prednisolone (COP regimen).	Prednisolone	105-117	caspase recruitment domain family member 16	Homo sapiens	119-122
23588684-2	2013	In particular, both cop and czc operons are regulated by TCRS; the cop operon plays a key role in bacterial tolerance to copper, whereas the czc operon is involved in the efflux of cadmium, zinc, and cobalt from the cell.	Cobalt	200-206	caspase recruitment domain family member 16	Homo sapiens	20-23
23588684-2	2013	In particular, both cop and czc operons are regulated by TCRS; the cop operon plays a key role in bacterial tolerance to copper, whereas the czc operon is involved in the efflux of cadmium, zinc, and cobalt from the cell.	Cobalt	200-206	caspase recruitment domain family member 16	Homo sapiens	67-70
23499072-1	2013	Collagen peptides grafted sodium alginate (SA-COP) was prepared by reacting alginate with collagen peptide via amide linkage in presence of 1-ethyl-(dimethylaminopropyl) carbodiimide (EDC) and N-hydroxy sulfosuccinimide (NHS).	Alginates	26-41	caspase recruitment domain family member 16	Homo sapiens	46-49
23650518-6	2013	As compared to traditional DFA, EMD-DFA more accurately identified trends in COP data with intrinsic scales and produced short and long-term scaling exponents (i.e., alpha(Short), alpha(Long)) with greater reliability.	Diphenylamine	36-39	caspase recruitment domain family member 16	Homo sapiens	77-80
23499072-1	2013	Collagen peptides grafted sodium alginate (SA-COP) was prepared by reacting alginate with collagen peptide via amide linkage in presence of 1-ethyl-(dimethylaminopropyl) carbodiimide (EDC) and N-hydroxy sulfosuccinimide (NHS).	Alginates	33-41	caspase recruitment domain family member 16	Homo sapiens	46-49
23499072-1	2013	Collagen peptides grafted sodium alginate (SA-COP) was prepared by reacting alginate with collagen peptide via amide linkage in presence of 1-ethyl-(dimethylaminopropyl) carbodiimide (EDC) and N-hydroxy sulfosuccinimide (NHS).	Amides	111-116	caspase recruitment domain family member 16	Homo sapiens	46-49
23499072-1	2013	Collagen peptides grafted sodium alginate (SA-COP) was prepared by reacting alginate with collagen peptide via amide linkage in presence of 1-ethyl-(dimethylaminopropyl) carbodiimide (EDC) and N-hydroxy sulfosuccinimide (NHS).	1-ethyl-(dimethylaminopropyl) carbodiimide	140-182	caspase recruitment domain family member 16	Homo sapiens	46-49
23499072-1	2013	Collagen peptides grafted sodium alginate (SA-COP) was prepared by reacting alginate with collagen peptide via amide linkage in presence of 1-ethyl-(dimethylaminopropyl) carbodiimide (EDC) and N-hydroxy sulfosuccinimide (NHS).	ethylene dichloride	184-187	caspase recruitment domain family member 16	Homo sapiens	46-49
23499072-1	2013	Collagen peptides grafted sodium alginate (SA-COP) was prepared by reacting alginate with collagen peptide via amide linkage in presence of 1-ethyl-(dimethylaminopropyl) carbodiimide (EDC) and N-hydroxy sulfosuccinimide (NHS).	N-hydroxysulfosuccinimide	193-219	caspase recruitment domain family member 16	Homo sapiens	46-49
23499072-1	2013	Collagen peptides grafted sodium alginate (SA-COP) was prepared by reacting alginate with collagen peptide via amide linkage in presence of 1-ethyl-(dimethylaminopropyl) carbodiimide (EDC) and N-hydroxy sulfosuccinimide (NHS).	N-hydroxysulfosuccinimide	221-224	caspase recruitment domain family member 16	Homo sapiens	46-49
23499072-4	2013	MTT assay was used to investigate the cell viability of SA-COP.	monooxyethylene trimethylolpropane tristearate	0-3	caspase recruitment domain family member 16	Homo sapiens	59-62
23169503-2	2013	We studied standard agents with rituximab plus pegylated liposomal doxorubicin (DR-COP) in an attempt to provide a more practical approach to therapy while ascertaining rates of response, potential infectious complications, and prognostic role of biologic markers.	Doxorubicin	67-78	caspase recruitment domain family member 16	Homo sapiens	83-86
23312023-3	2013	The electrochemical performance of typical CoP and Co(2)P samples as anode materials has been investigated and the CoP hollow nanoparticle with carbon coating layer depicts good capacity retention and high rate capability (e.g., specific capacity of 630 mA h g(-1) at 0.2 C after 100 cycles, and a reversible capacity of 256 mA h g(-1) can be achieved at a high current rate of 5 C).	co(2)p	51-57	caspase recruitment domain family member 16	Homo sapiens	115-118
23312023-3	2013	The electrochemical performance of typical CoP and Co(2)P samples as anode materials has been investigated and the CoP hollow nanoparticle with carbon coating layer depicts good capacity retention and high rate capability (e.g., specific capacity of 630 mA h g(-1) at 0.2 C after 100 cycles, and a reversible capacity of 256 mA h g(-1) can be achieved at a high current rate of 5 C).	Carbon	144-150	caspase recruitment domain family member 16	Homo sapiens	43-46
23312023-3	2013	The electrochemical performance of typical CoP and Co(2)P samples as anode materials has been investigated and the CoP hollow nanoparticle with carbon coating layer depicts good capacity retention and high rate capability (e.g., specific capacity of 630 mA h g(-1) at 0.2 C after 100 cycles, and a reversible capacity of 256 mA h g(-1) can be achieved at a high current rate of 5 C).	Carbon	144-150	caspase recruitment domain family member 16	Homo sapiens	115-118
23752375-6	2013	The sorption efficiency of COP drops by merely about 3% after five cycles, implying a promising usage in the removal of Cu(II) from wastewater in practice.	cu(ii)	120-126	caspase recruitment domain family member 16	Homo sapiens	27-30
23033059-1	2012	A visible-light driven H(2) evolution system comprising of a Ru(II) dye (RuP) and Co(III) proton reduction catalysts (CoP) immobilised on TiO(2) nanoparticles and mesoporous films is presented.	h(2)	23-27	caspase recruitment domain family member 16	Homo sapiens	118-121
23752375-1	2013	In the present work, cysteine-modified orange peel (COP) for the removal of Cu(II) from aqueous solutions has been developed and comparatively studied with diethylenetriamine-modified orange peel (DOP).	Cysteine	21-29	caspase recruitment domain family member 16	Homo sapiens	52-55
23752375-1	2013	In the present work, cysteine-modified orange peel (COP) for the removal of Cu(II) from aqueous solutions has been developed and comparatively studied with diethylenetriamine-modified orange peel (DOP).	cu(ii)	76-82	caspase recruitment domain family member 16	Homo sapiens	52-55
23752375-1	2013	In the present work, cysteine-modified orange peel (COP) for the removal of Cu(II) from aqueous solutions has been developed and comparatively studied with diethylenetriamine-modified orange peel (DOP).	diethylenetriamine	156-174	caspase recruitment domain family member 16	Homo sapiens	52-55
23752375-2	2013	Both COP and DOP were systematically evaluated via their capabilities for adsorbing Cu(II), including the key influential parameters such as initial pH, contact time and initial Cu(II) concentration.	cu(ii)	84-90	caspase recruitment domain family member 16	Homo sapiens	5-8
23752375-3	2013	Further studies suggest that the sorption of Cu(II) onto both COP and DOP fits well with the pseudo-second-order equation, and the corresponding sorption isotherm can be classified to a Langmuir isotherm model.	cu(ii)	45-51	caspase recruitment domain family member 16	Homo sapiens	62-65
23752375-4	2013	COP appears more advantageous over DOP and far better than that of unmodified OP in removal of Cu(II) from aqueous system.	cu(ii)	95-101	caspase recruitment domain family member 16	Homo sapiens	0-3
23033059-3	2012	Photodegradation of the self-assembled system occurs at the ligand framework of CoP, which can be readily repaired by addition of fresh ligand, resulting in turnover numbers above 300 mol H(2) (mol CoP)(-1) and above 200,000 mol H(2) (mol TiO(2) nanoparticles)(-1) in water.	Water	268-273	caspase recruitment domain family member 16	Homo sapiens	80-83
22508391-3	2012	Interestingly, COP-3 and COP-4 show very fast responses and high sensitivity to the nitroaromatic explosives, and also high selectivity for tracing picric acid (PA) and 2,4,6-trinitrotoluene (TNT) at low concentration (<1 ppm).	nitroaromatic	84-97	caspase recruitment domain family member 16	Homo sapiens	15-18
22796747-1	2012	We demonstrate noncovalent electrostatic and pi-pi interactions to assemble semiconducting single wall carbon nanotube (SWCNT)-C(60)@COP nanohybrids.	Carbon	103-109	caspase recruitment domain family member 16	Homo sapiens	133-136
22796747-2	2012	The C(60)@COP light harvesting complexes bind strongly to SWCNTs due to significant pi-pi-stacking between C(60), the aromatic dicarbazolylacetylene moieties and the nanotube surfaces.	dicarbazolylacetylene	127-148	caspase recruitment domain family member 16	Homo sapiens	10-13
22508391-3	2012	Interestingly, COP-3 and COP-4 show very fast responses and high sensitivity to the nitroaromatic explosives, and also high selectivity for tracing picric acid (PA) and 2,4,6-trinitrotoluene (TNT) at low concentration (<1 ppm).	nitroaromatic	84-97	caspase recruitment domain family member 16	Homo sapiens	25-28
22508391-3	2012	Interestingly, COP-3 and COP-4 show very fast responses and high sensitivity to the nitroaromatic explosives, and also high selectivity for tracing picric acid (PA) and 2,4,6-trinitrotoluene (TNT) at low concentration (<1 ppm).	picric acid	148-159	caspase recruitment domain family member 16	Homo sapiens	15-18
22508391-3	2012	Interestingly, COP-3 and COP-4 show very fast responses and high sensitivity to the nitroaromatic explosives, and also high selectivity for tracing picric acid (PA) and 2,4,6-trinitrotoluene (TNT) at low concentration (<1 ppm).	picric acid	148-159	caspase recruitment domain family member 16	Homo sapiens	25-28
22508391-3	2012	Interestingly, COP-3 and COP-4 show very fast responses and high sensitivity to the nitroaromatic explosives, and also high selectivity for tracing picric acid (PA) and 2,4,6-trinitrotoluene (TNT) at low concentration (<1 ppm).	picric acid	161-163	caspase recruitment domain family member 16	Homo sapiens	15-18
22508391-3	2012	Interestingly, COP-3 and COP-4 show very fast responses and high sensitivity to the nitroaromatic explosives, and also high selectivity for tracing picric acid (PA) and 2,4,6-trinitrotoluene (TNT) at low concentration (<1 ppm).	picric acid	161-163	caspase recruitment domain family member 16	Homo sapiens	25-28
22508391-3	2012	Interestingly, COP-3 and COP-4 show very fast responses and high sensitivity to the nitroaromatic explosives, and also high selectivity for tracing picric acid (PA) and 2,4,6-trinitrotoluene (TNT) at low concentration (<1 ppm).	Trinitrotoluene	169-190	caspase recruitment domain family member 16	Homo sapiens	15-18
22508391-3	2012	Interestingly, COP-3 and COP-4 show very fast responses and high sensitivity to the nitroaromatic explosives, and also high selectivity for tracing picric acid (PA) and 2,4,6-trinitrotoluene (TNT) at low concentration (<1 ppm).	Trinitrotoluene	169-190	caspase recruitment domain family member 16	Homo sapiens	25-28
22508391-3	2012	Interestingly, COP-3 and COP-4 show very fast responses and high sensitivity to the nitroaromatic explosives, and also high selectivity for tracing picric acid (PA) and 2,4,6-trinitrotoluene (TNT) at low concentration (<1 ppm).	Trinitrotoluene	192-195	caspase recruitment domain family member 16	Homo sapiens	15-18
22508391-3	2012	Interestingly, COP-3 and COP-4 show very fast responses and high sensitivity to the nitroaromatic explosives, and also high selectivity for tracing picric acid (PA) and 2,4,6-trinitrotoluene (TNT) at low concentration (<1 ppm).	Trinitrotoluene	192-195	caspase recruitment domain family member 16	Homo sapiens	25-28
22316285-1	2012	2-Vinylchromanes (1), 2-vinyl-1,4-benzodioxanes (2), and 2,3-dihydro-2-vinyl-2H-1,4-benzoxazines (3) can be prepared in high yields (90-98%) and excellent enantiomeric purities (87-98% ee) by [COP-OAc](2)-catalyzed cyclization of phenolic (E)-allylic trichloroacetimidate precursors.	2-vinylchromanes	0-16	caspase recruitment domain family member 16	Homo sapiens	193-196
22178005-6	2012	Functional analyses were used to detect differences between FI and control subjects with respect to normalized EMG and COP trajectory during walking.	H-Phe-Ile-OH	60-62	caspase recruitment domain family member 16	Homo sapiens	119-122
22316285-3	2012	2-Vinylchromanes can also be prepared in good yields and high enantiomeric purities from analogous (E)-allylic acetate precursors, which constitutes the first report that acetate is a competent leaving group in COP-catalyzed enantioselective S(N)2" substitution reactions.	2-vinylchromanes	0-16	caspase recruitment domain family member 16	Homo sapiens	211-214
22316285-3	2012	2-Vinylchromanes can also be prepared in good yields and high enantiomeric purities from analogous (E)-allylic acetate precursors, which constitutes the first report that acetate is a competent leaving group in COP-catalyzed enantioselective S(N)2" substitution reactions.	Acetates	111-118	caspase recruitment domain family member 16	Homo sapiens	211-214
22316285-3	2012	2-Vinylchromanes can also be prepared in good yields and high enantiomeric purities from analogous (E)-allylic acetate precursors, which constitutes the first report that acetate is a competent leaving group in COP-catalyzed enantioselective S(N)2" substitution reactions.	Acetates	171-178	caspase recruitment domain family member 16	Homo sapiens	211-214
22096062-5	2011	COP represented 45.8%, BSP 40.7%, NSP 10.8% and PRP 2.6% of total European outpatient penicillin use.	Penicillins	86-96	caspase recruitment domain family member 16	Homo sapiens	0-3
21623695-0	2012	Packing density of the PEG-shell in PEG-albumins: PEGylation induced viscosity and COP are inverse correlate of packing density.	Polyethylene Glycols	23-26	caspase recruitment domain family member 16	Homo sapiens	83-86
21623695-0	2012	Packing density of the PEG-shell in PEG-albumins: PEGylation induced viscosity and COP are inverse correlate of packing density.	Polyethylene Glycols	36-39	caspase recruitment domain family member 16	Homo sapiens	83-86
21623695-6	2012	The PEGylation induced increase in the viscosity and COP of albumin is an exponential correlation of the number of ethylene oxide units (-CH(2)-CH(2)-O-) conjugated and is also a function of the PEG-chain length.	Ethylene Oxide	115-129	caspase recruitment domain family member 16	Homo sapiens	53-56
21623695-6	2012	The PEGylation induced increase in the viscosity and COP of albumin is an exponential correlation of the number of ethylene oxide units (-CH(2)-CH(2)-O-) conjugated and is also a function of the PEG-chain length.	Polyethylene Glycols	4-7	caspase recruitment domain family member 16	Homo sapiens	53-56
21623695-7	2012	At equivalence of PEG mass conjugated, the viscosity and COP of PEG-albumin adducts correlate inversely with packing density of PEG.	Polyethylene Glycols	64-67	caspase recruitment domain family member 16	Homo sapiens	57-60
21623695-7	2012	At equivalence of PEG mass conjugated, the viscosity and COP of PEG-albumin adducts correlate inversely with packing density of PEG.	Polyethylene Glycols	64-67	caspase recruitment domain family member 16	Homo sapiens	57-60
22470975-1	2012	This discussion describes a study of a particulate semiconductor assembly consisting of a photoactive ruthenium dye-sensitised metal oxide nanoparticle loaded with a synthetic cobaloxime proton reduction catalyst (CoP).	ruthenium dye	102-115	caspase recruitment domain family member 16	Homo sapiens	214-217
22470975-1	2012	This discussion describes a study of a particulate semiconductor assembly consisting of a photoactive ruthenium dye-sensitised metal oxide nanoparticle loaded with a synthetic cobaloxime proton reduction catalyst (CoP).	metal oxide	127-138	caspase recruitment domain family member 16	Homo sapiens	214-217
22470975-4	2012	A maximum photoactivity was identified with TiO2 nanoparticles modified with CoP and RuP in a 2: 1 ratio in the colloidal reaction mixture: visible light irradiation yielded 600 +/- 32 micromol H2 h(-1) (g TiO2)(-1).	titanium dioxide	44-48	caspase recruitment domain family member 16	Homo sapiens	77-80
22470975-4	2012	A maximum photoactivity was identified with TiO2 nanoparticles modified with CoP and RuP in a 2: 1 ratio in the colloidal reaction mixture: visible light irradiation yielded 600 +/- 32 micromol H2 h(-1) (g TiO2)(-1).	Hydrogen	194-196	caspase recruitment domain family member 16	Homo sapiens	77-80
22470975-5	2012	A total turnover number of 108 +/- 9 mol H2 (mol CoP)(-1), the evolution of 4340 +/- 240 micromol H2 (g TiO2)(-1) and approximately 87 micromol H2 (m2 TiO2)(-1) were observed after 10 h irradiation.	Hydrogen	41-43	caspase recruitment domain family member 16	Homo sapiens	49-52
22470975-6	2012	Linkage of the catalysts to TiO2 is critical for the system to work efficiently, and CoP and RuP contain one and two phosphonic acid linker moieties, respectively.	phosphonic acid	117-132	caspase recruitment domain family member 16	Homo sapiens	85-88
22470975-7	2012	The novel phosphonate ester analogue of CoP, [CoCl(dimethylglyoximato)2(diethyl pyridyl-4-phosphonate)] (1) was also synthesised and studied.	phosphonate ester	10-27	caspase recruitment domain family member 16	Homo sapiens	40-43
22470975-7	2012	The novel phosphonate ester analogue of CoP, [CoCl(dimethylglyoximato)2(diethyl pyridyl-4-phosphonate)] (1) was also synthesised and studied.	cocl(dimethylglyoximato)2(diethyl pyridyl-4-phosphonate)	46-102	caspase recruitment domain family member 16	Homo sapiens	40-43
22790134-3	2012	After 6 cycles of rituximab, cyclophosphamide, vincristine and prednisolone (R-COP) therapy, his renal function improved enough to discontinue hemodialysis.	Prednisolone	63-75	caspase recruitment domain family member 16	Homo sapiens	79-82
22481760-6	2012	Immunochemotherapy consisting of rituximab, cyclophosphamide, vincristine and prednisone (R-COP) induced complete remission of the symptoms and endoscopic lesion.	Prednisone	78-88	caspase recruitment domain family member 16	Homo sapiens	92-95
22096062-7	2011	COP (mainly co-amoxiclav) increased by 2.17 (SD 0.40) DID, which was the result of its absolute increase as well as the observed shift from NSP and BSP towards COP.	Amoxicillin-Potassium Clavulanate Combination	12-24	caspase recruitment domain family member 16	Homo sapiens	0-3
21611735-2	2011	We present the characterization of polymers from the cycloolefin (co)polymer class (COC/COP) functionalized with an aminosilane as a basis for the further immobilization of compounds.	Polymers	35-43	caspase recruitment domain family member 16	Homo sapiens	88-91
21611735-2	2011	We present the characterization of polymers from the cycloolefin (co)polymer class (COC/COP) functionalized with an aminosilane as a basis for the further immobilization of compounds.	cycloolefin (co)polymer	53-76	caspase recruitment domain family member 16	Homo sapiens	88-91
21611735-2	2011	We present the characterization of polymers from the cycloolefin (co)polymer class (COC/COP) functionalized with an aminosilane as a basis for the further immobilization of compounds.	2-cyanoethyldimethyl(diethyl)aminosilane	116-127	caspase recruitment domain family member 16	Homo sapiens	88-91
21611735-7	2011	Fluorescence measurements show that polymers of the COC/COP class can be used as versatile surfaces for the photoinduced release of compounds immobilized via photolabile linkers.	Polymers	36-44	caspase recruitment domain family member 16	Homo sapiens	56-59
21438831-2	2011	We previously described the benefit of the THP-COP regimen comprising cyclophosphamide, THP, vincristine, and prednisolone for elderly patients with diffuse large B-cell lymphoma (DLBCL).	Prednisolone	110-122	caspase recruitment domain family member 16	Homo sapiens	47-50
20973520-1	2010	Cationic Pd(II) catalysts generated from chiral biphenyl diphosphine complexes or from COP-Cl promote enantioselective cyclization of E- and Z-configured allylic bis-trichloroacetimidates to highly enantioenriched 2-trichloromethyl-4-vinyloxazoline.	Polydioxanone	9-15	caspase recruitment domain family member 16	Homo sapiens	87-90
21438831-2	2011	We previously described the benefit of the THP-COP regimen comprising cyclophosphamide, THP, vincristine, and prednisolone for elderly patients with diffuse large B-cell lymphoma (DLBCL).	Cyclophosphamide	70-86	caspase recruitment domain family member 16	Homo sapiens	47-50
21438831-2	2011	We previously described the benefit of the THP-COP regimen comprising cyclophosphamide, THP, vincristine, and prednisolone for elderly patients with diffuse large B-cell lymphoma (DLBCL).	Vincristine	93-104	caspase recruitment domain family member 16	Homo sapiens	47-50
20973520-1	2010	Cationic Pd(II) catalysts generated from chiral biphenyl diphosphine complexes or from COP-Cl promote enantioselective cyclization of E- and Z-configured allylic bis-trichloroacetimidates to highly enantioenriched 2-trichloromethyl-4-vinyloxazoline.	bis-trichloroacetimidates	162-187	caspase recruitment domain family member 16	Homo sapiens	87-90
20973520-1	2010	Cationic Pd(II) catalysts generated from chiral biphenyl diphosphine complexes or from COP-Cl promote enantioselective cyclization of E- and Z-configured allylic bis-trichloroacetimidates to highly enantioenriched 2-trichloromethyl-4-vinyloxazoline.	Oxazole, 4-ethenyl-4,5-dihydro-2-(trichloromethyl)-	214-248	caspase recruitment domain family member 16	Homo sapiens	87-90
20491119-3	2010	The resulting phosphide nanostructures exhibit interesting phase- and composition-dependent magnetic properties, and magnetic measurements suggested that the Co(2)P nanowires with anti-PbCl(2) structure show a ferromagnetic-paramagnetic transition at 6 K, while the MnP-structured CoP nanowires are paramagnetic with Curie-Weiss behavior.	phosphide(3-)	14-23	caspase recruitment domain family member 16	Homo sapiens	281-284
20491119-3	2010	The resulting phosphide nanostructures exhibit interesting phase- and composition-dependent magnetic properties, and magnetic measurements suggested that the Co(2)P nanowires with anti-PbCl(2) structure show a ferromagnetic-paramagnetic transition at 6 K, while the MnP-structured CoP nanowires are paramagnetic with Curie-Weiss behavior.	co(2)p	158-164	caspase recruitment domain family member 16	Homo sapiens	281-284
19384195-1	2009	OBJECTIVE: Recent data suggest that patients surviving acute carbon monoxide (CO) poisoning (COP) may have increased risk for long-term mortality.	Carbon Monoxide	61-76	caspase recruitment domain family member 16	Homo sapiens	93-96
20079660-0	2010	Prostaglandins in bone: bad cop, good cop?	Prostaglandins	0-14	caspase recruitment domain family member 16	Homo sapiens	28-31
20079660-0	2010	Prostaglandins in bone: bad cop, good cop?	Prostaglandins	0-14	caspase recruitment domain family member 16	Homo sapiens	38-41
20017518-2	2010	The chiral palladacycle COP-Cl (5 mol %) is used as a catalyst with silver(I) trifluoroacetate (10 mol %) at 35-45 degrees C. Examples of heterocycles synthesized include 2-pyridones, quinolin-2(1H)-ones, and isoquinolin-1(2H)-ones.	Silver trifluoroacetate	68-94	caspase recruitment domain family member 16	Homo sapiens	24-27
20017518-2	2010	The chiral palladacycle COP-Cl (5 mol %) is used as a catalyst with silver(I) trifluoroacetate (10 mol %) at 35-45 degrees C. Examples of heterocycles synthesized include 2-pyridones, quinolin-2(1H)-ones, and isoquinolin-1(2H)-ones.	2-hydroxypyridine	171-182	caspase recruitment domain family member 16	Homo sapiens	24-27
20017518-2	2010	The chiral palladacycle COP-Cl (5 mol %) is used as a catalyst with silver(I) trifluoroacetate (10 mol %) at 35-45 degrees C. Examples of heterocycles synthesized include 2-pyridones, quinolin-2(1H)-ones, and isoquinolin-1(2H)-ones.	quinolin-2(1h)-ones	184-203	caspase recruitment domain family member 16	Homo sapiens	24-27
20017518-2	2010	The chiral palladacycle COP-Cl (5 mol %) is used as a catalyst with silver(I) trifluoroacetate (10 mol %) at 35-45 degrees C. Examples of heterocycles synthesized include 2-pyridones, quinolin-2(1H)-ones, and isoquinolin-1(2H)-ones.	isocarbostyril	209-231	caspase recruitment domain family member 16	Homo sapiens	24-27
19926952-9	2009	He underwent chemotherapy (rituximab-THP-COP) and achieved complete remission again.	pirarubicin	37-40	caspase recruitment domain family member 16	Homo sapiens	41-44
20394402-3	2010	Morphology and porosity of Mg(2)Al-Hb(cop) biohybrid are analyzed from SEM and TEM images and permeability measurement.	mg(2)	27-32	caspase recruitment domain family member 16	Homo sapiens	38-41
20394402-4	2010	The direct electron transfer of immobilized Hb was studied by cyclic voltammetry, and the electrocatalytic activity was evaluated at glassy carbon modified with this Mg(2)Al-Hb(cop) biohybrid.	Carbon	140-146	caspase recruitment domain family member 16	Homo sapiens	177-180
20396819-4	2010	We performed a comprehensive characterization of 3-aminopropyl-triethoxysilane films prepared under two different deposition conditions on COP slides.	amino-propyl-triethoxysilane	49-78	caspase recruitment domain family member 16	Homo sapiens	139-142
19109091-3	2009	Experimental results on several real data sets with artificial instance-level constraints demonstrate that UALA can identify a good assignment order of instances for Cop-Kmeans.	kmeans	170-176	caspase recruitment domain family member 16	Homo sapiens	166-169
19109091-4	2009	In addition, the effects of ensemble sizes on the performance of UALA are analyzed, and the generalization property of Cop-Kmeans is also studied.	kmeans	123-129	caspase recruitment domain family member 16	Homo sapiens	119-122
18086222-6	2008	When gas films were removed, O(2) uptake in darkness was already diffusion-limited at 20.6 kPa (critical O(2) pressure for respiration, COP(R)>/= 284 mmol O(2) m(-3)), whereas for some leaves with gas films, O(2) uptake declined only at approx.	o(2)	29-33	caspase recruitment domain family member 16	Homo sapiens	136-139
19195206-2	2008	She was given a diagnosis of COP based on TBLB specimen and CT findings and received steroid pulse therapy at the hospital.	tblb	42-46	caspase recruitment domain family member 16	Homo sapiens	29-32
16363848-1	2005	Mets motifs, which refer to methionine-rich sequences found in the high-affinity copper transporter Ctr1, also appear in other proteins involved in copper trafficking and homeostasis, including other Ctrs as well as Pco and Cop proteins isolated from copper-resistant bacteria.	Methionine	28-38	caspase recruitment domain family member 16	Homo sapiens	224-227
18208780-8	2008	Chemotherapy using cyclophosphamide, vincristine and dexamethasone (COP modified) led to a dramatic response of the tumor and a complete resolution of compressive symptoms.	Cyclophosphamide	19-35	caspase recruitment domain family member 16	Homo sapiens	68-71
18208780-8	2008	Chemotherapy using cyclophosphamide, vincristine and dexamethasone (COP modified) led to a dramatic response of the tumor and a complete resolution of compressive symptoms.	Dexamethasone	53-66	caspase recruitment domain family member 16	Homo sapiens	68-71
17990890-2	2007	The use of chiral Pd(II) catalysts such as (S)-COP-Cl during the rearrangement stage results in the preparation of these compounds in excellent yields and in high enantiomeric excess.	Polydioxanone	18-24	caspase recruitment domain family member 16	Homo sapiens	47-50
17668812-9	2007	The patient was treated with R-COP regiment (six cycles rituximab + COP- cyclophosphamid, vincristin, prednisolon).	Cyclophosphamide	73-88	caspase recruitment domain family member 16	Homo sapiens	68-71
17760859-8	2007	In contrast to ARFGAP1, both ARFGAP2 and ARFGAP3 are associated with COP-I-coated vesicles generated from Golgi membranes in the presence of GTP-gamma-S in vitro.	Guanosine 5'-O-(3-Thiotriphosphate)	141-152	caspase recruitment domain family member 16	Homo sapiens	69-72
17138821-8	2007	Patients with either combined BM/CNS disease at diagnosis or poor response to cyclophosphamide, Oncovin [vincristine], prednisone (COP) reduction therapy had a significantly inferior EFS and S (P < .001).	Prednisone	119-129	caspase recruitment domain family member 16	Homo sapiens	131-134
17450922-9	2007	At the same time, CoP+ZNT complex is more stable by 42.7 kcal mol(-1) as compared to H2P+ZNT According to these calculated results, the free porphyrins interact less selectively with zigzag and armchair (i.e., semiconducting and metallic) nanotubes, whereas the difference becomes very large for the metal porphyrins.	znt	22-25	caspase recruitment domain family member 16	Homo sapiens	18-21
17450922-9	2007	At the same time, CoP+ZNT complex is more stable by 42.7 kcal mol(-1) as compared to H2P+ZNT According to these calculated results, the free porphyrins interact less selectively with zigzag and armchair (i.e., semiconducting and metallic) nanotubes, whereas the difference becomes very large for the metal porphyrins.	Porphyrins	141-151	caspase recruitment domain family member 16	Homo sapiens	18-21
17450922-9	2007	At the same time, CoP+ZNT complex is more stable by 42.7 kcal mol(-1) as compared to H2P+ZNT According to these calculated results, the free porphyrins interact less selectively with zigzag and armchair (i.e., semiconducting and metallic) nanotubes, whereas the difference becomes very large for the metal porphyrins.	Metals	229-234	caspase recruitment domain family member 16	Homo sapiens	18-21
17893890-4	2007	Addition of COP-Cl to triphenylphosphinobenzoyl NovaGel AM resin gave a recyclable catalyst in which the ee was maintained over three cycles (89-94%).	triphenylphosphinobenzoyl novagel am resin	22-64	caspase recruitment domain family member 16	Homo sapiens	12-15
17893890-5	2007	Catalysis with COP-OAc displayed a small positive non-linear effect.	SDZ 33-243	19-22	caspase recruitment domain family member 16	Homo sapiens	15-18
16709803-5	2006	A C-terminal valine residue functioned in ER export and interacted with coat complex (COP)II, while an RxR motif also played an important role in anterograde transport and bound to 14-3-3 proteins.	Valine	13-19	caspase recruitment domain family member 16	Homo sapiens	86-89
16570061-0	2006	A key stone cop regulates oxalate homeostasis.	Oxalates	26-33	caspase recruitment domain family member 16	Homo sapiens	12-15
16683659-1	2006	AIM: We examined the efficacy and adverse effects of rituximab with CHOP (cyclophosphamide, doxorubicin, vincristin, prednisone) or THP-COP (pirarubicin, cyclophosphamide, vincristin, prednisone) in previously untreated old-old and extremely old patients with diffuse large B cell lymphoma (DLBCL).	pirarubicin	132-135	caspase recruitment domain family member 16	Homo sapiens	136-139
16088404-7	2006	CONCLUSIONS: Bendamustine can efficaciously and safely replace cyclophosphamide, as used in standard COP therapy, for the treatment of patients with indolent NHL and mantle cell lymphoma.	Bendamustine Hydrochloride	13-25	caspase recruitment domain family member 16	Homo sapiens	101-104
16363848-1	2005	Mets motifs, which refer to methionine-rich sequences found in the high-affinity copper transporter Ctr1, also appear in other proteins involved in copper trafficking and homeostasis, including other Ctrs as well as Pco and Cop proteins isolated from copper-resistant bacteria.	Copper	81-87	caspase recruitment domain family member 16	Homo sapiens	224-227
16363848-1	2005	Mets motifs, which refer to methionine-rich sequences found in the high-affinity copper transporter Ctr1, also appear in other proteins involved in copper trafficking and homeostasis, including other Ctrs as well as Pco and Cop proteins isolated from copper-resistant bacteria.	Copper	148-154	caspase recruitment domain family member 16	Homo sapiens	224-227
14531676-2	2003	COP-Cl catalyzes the rearrangement of (E)-allylic trichloroacetimidates to provide transposed allylic trichloroacetamides of high enantiopurity, a transformation that underlies the first truly practical method for transforming prochiral allylic alcohols to enantioenriched allylic amines and congeners.	e)-allylic	39-49	caspase recruitment domain family member 16	Homo sapiens	0-3
16287277-0	2005	Synthesis of single-crystalline CoP nanowires by a one-pot metal-organic route.	Metals	59-64	caspase recruitment domain family member 16	Homo sapiens	32-35
16287277-1	2005	A simple one-pot method has been used to prepare uniform single-crystalline CoP nanowires with a high aspect ratio by the thermal-decomposition reaction of cobalt(II) acetylacetone with long-chain alkylphosphonic acid in the presence of hexadecylamine (HDA) and trioctylphosphine oxide (TOPO) at high temperature.	cobalt(ii) acetylacetone	156-180	caspase recruitment domain family member 16	Homo sapiens	76-79
16287277-1	2005	A simple one-pot method has been used to prepare uniform single-crystalline CoP nanowires with a high aspect ratio by the thermal-decomposition reaction of cobalt(II) acetylacetone with long-chain alkylphosphonic acid in the presence of hexadecylamine (HDA) and trioctylphosphine oxide (TOPO) at high temperature.	alkylphosphonic acid	197-217	caspase recruitment domain family member 16	Homo sapiens	76-79
16287277-1	2005	A simple one-pot method has been used to prepare uniform single-crystalline CoP nanowires with a high aspect ratio by the thermal-decomposition reaction of cobalt(II) acetylacetone with long-chain alkylphosphonic acid in the presence of hexadecylamine (HDA) and trioctylphosphine oxide (TOPO) at high temperature.	hexadecylamine	237-251	caspase recruitment domain family member 16	Homo sapiens	76-79
16287277-1	2005	A simple one-pot method has been used to prepare uniform single-crystalline CoP nanowires with a high aspect ratio by the thermal-decomposition reaction of cobalt(II) acetylacetone with long-chain alkylphosphonic acid in the presence of hexadecylamine (HDA) and trioctylphosphine oxide (TOPO) at high temperature.	hexadecylamine	253-256	caspase recruitment domain family member 16	Homo sapiens	76-79
16287277-1	2005	A simple one-pot method has been used to prepare uniform single-crystalline CoP nanowires with a high aspect ratio by the thermal-decomposition reaction of cobalt(II) acetylacetone with long-chain alkylphosphonic acid in the presence of hexadecylamine (HDA) and trioctylphosphine oxide (TOPO) at high temperature.	trioctyl phosphine oxide	262-285	caspase recruitment domain family member 16	Homo sapiens	76-79
16287277-1	2005	A simple one-pot method has been used to prepare uniform single-crystalline CoP nanowires with a high aspect ratio by the thermal-decomposition reaction of cobalt(II) acetylacetone with long-chain alkylphosphonic acid in the presence of hexadecylamine (HDA) and trioctylphosphine oxide (TOPO) at high temperature.	trioctyl phosphine oxide	287-291	caspase recruitment domain family member 16	Homo sapiens	76-79
16834098-3	2005	It is also demonstrated, for a large series of anthocyanin-copigment pairs, that the standard Gibbs free energy of complex formation decreases linearly with EA(Anthoc) - IP(Cop), the difference between the electron affinity of the anthocyanin, EA(Anthoc), and the ionization potential of the copigment, IP(Cop).	Anthocyanins	47-58	caspase recruitment domain family member 16	Homo sapiens	173-176
16834098-3	2005	It is also demonstrated, for a large series of anthocyanin-copigment pairs, that the standard Gibbs free energy of complex formation decreases linearly with EA(Anthoc) - IP(Cop), the difference between the electron affinity of the anthocyanin, EA(Anthoc), and the ionization potential of the copigment, IP(Cop).	Anthocyanins	47-58	caspase recruitment domain family member 16	Homo sapiens	306-309
16834098-3	2005	It is also demonstrated, for a large series of anthocyanin-copigment pairs, that the standard Gibbs free energy of complex formation decreases linearly with EA(Anthoc) - IP(Cop), the difference between the electron affinity of the anthocyanin, EA(Anthoc), and the ionization potential of the copigment, IP(Cop).	Anthocyanins	231-242	caspase recruitment domain family member 16	Homo sapiens	173-176
15793807-9	2005	Mg3Al-(ibp)(ie) and Mg3Al-(ibp)(cop) exhibit poor buffering property, but contain high ibp amounts.	mg3al	20-25	caspase recruitment domain family member 16	Homo sapiens	32-35
15793807-9	2005	Mg3Al-(ibp)(ie) and Mg3Al-(ibp)(cop) exhibit poor buffering property, but contain high ibp amounts.	O,O-diisopropyl-S-benzylthiophosphate	27-30	caspase recruitment domain family member 16	Homo sapiens	32-35
15793807-9	2005	Mg3Al-(ibp)(ie) and Mg3Al-(ibp)(cop) exhibit poor buffering property, but contain high ibp amounts.	O,O-diisopropyl-S-benzylthiophosphate	27-30	caspase recruitment domain family member 16	Homo sapiens	32-35
15615043-1	2004	This paper describes the photochemical behavior of the colloidal CdS/MV2+/COP system in excess of Na2S.	sodium sulfide	98-102	caspase recruitment domain family member 16	Homo sapiens	65-77
14648210-0	2004	Biweekly CHOP or THP-COP regimens in the treatment of newly diagnosed aggressive non-Hodgkin"s lymphoma.	pirarubicin	17-20	caspase recruitment domain family member 16	Homo sapiens	21-24
14648210-3	2004	METHODS: A prospective, randomized phase II study with 80 patients (40 receiving CHOP or THP-COP) less than 70 years of age with previously untreated aggressive non-Hodgkin"s lymphoma (NHL).	pirarubicin	89-92	caspase recruitment domain family member 16	Homo sapiens	93-96
14648210-6	2004	Complete remission rate was 72.5% (72.5% for CHOP, 72.5% for THP-COP).	pirarubicin	61-64	caspase recruitment domain family member 16	Homo sapiens	65-68
14690739-3	2004	It has been shown that, after 16 min normothermic ischemia followed by 3.3-h hypothermic preservation, excellent myocardial and cardiovascular recovery is attained, if coronary oxygen persufflation (COP) is included in the preservation protocol.	Oxygen	177-183	caspase recruitment domain family member 16	Homo sapiens	199-202
16296854-2	2005	The shifts in phosphorus 2p(3/2) core line binding energies relative to that of elemental phosphorus indicated that the degree of ionicity of the metal-phosphorus bond decreases on progressing from CrP to CoP.	Metals	146-151	caspase recruitment domain family member 16	Homo sapiens	205-208
16296854-4	2005	The satellite structure observed in the Co 2p(3/2) X-ray photoelectron spectra of Co metal and CoP was examined by reflection electron energy loss spectroscopy and has been attributed to plasmon loss, not final state effects as has been previously suggested.	Cobalt	40-42	caspase recruitment domain family member 16	Homo sapiens	95-98
16231944-10	2005	An enantioselective variant of the reaction was demonstrated for the rearrangement of cis-(allyloxy) iminodiazaphospholidines with cobalt oxazoline palladacycle (COP-X) catalysts (5 mol %) in high yield and enantioselectivity (up to 96% ee).	cis-(allyloxy) iminodiazaphospholidines	86-125	caspase recruitment domain family member 16	Homo sapiens	162-165
16231944-10	2005	An enantioselective variant of the reaction was demonstrated for the rearrangement of cis-(allyloxy) iminodiazaphospholidines with cobalt oxazoline palladacycle (COP-X) catalysts (5 mol %) in high yield and enantioselectivity (up to 96% ee).	cobalt oxazoline palladacycle	131-160	caspase recruitment domain family member 16	Homo sapiens	162-165
15814336-0	2005	Long-term results of a multicenter randomized, comparative trial of modified CHOP versus THP-COP versus THP-COPE regimens in elderly patients with non-Hodgkin"s lymphoma.	pirarubicin	89-92	caspase recruitment domain family member 16	Homo sapiens	93-96
15814336-2	2005	In this multicenter study, THP (pirarubicin)-COP (cyclophosphamide, vincristine, and prednisolone) was compared to two thirds dosage of full CHOP (cyclophosphamide, doxorubicin, vincristine, and prednisolone) regimen with regard to both adverse events and efficacy.	pirarubicin	27-30	caspase recruitment domain family member 16	Homo sapiens	45-48
15814336-2	2005	In this multicenter study, THP (pirarubicin)-COP (cyclophosphamide, vincristine, and prednisolone) was compared to two thirds dosage of full CHOP (cyclophosphamide, doxorubicin, vincristine, and prednisolone) regimen with regard to both adverse events and efficacy.	pirarubicin	32-43	caspase recruitment domain family member 16	Homo sapiens	45-48
15814336-7	2005	The complete remission rates for the THP-COP, CHOP, and THP-COPE groups were 42.5%, 41.4%, and 48.0%, respectively.	pirarubicin	37-40	caspase recruitment domain family member 16	Homo sapiens	41-44
15814336-14	2005	In patients with T-cell-type lymphoma, the CR rate was greater after treatment with THP-COP (51.4%) or THP-COPE (57.7%) compared to treatment with CHOP (19.4%).	Chromium	43-45	caspase recruitment domain family member 16	Homo sapiens	88-91
15746937-0	2005	Part-time cop nabs deviant DNA.	nabs	14-18	caspase recruitment domain family member 16	Homo sapiens	10-13
17281480-6	2005	However, the AP CoP pattern for detected trials in both HEA and DPN were the same.	dpn	64-67	caspase recruitment domain family member 16	Homo sapiens	16-19
15005346-0	2004	Phase III study of ranimustine, cyclophosphamide, vincristine, melphalan, and prednisolone (MCNU-COP/MP) versus modified COP/MP in multiple myeloma: a Japan clinical oncology group study, JCOG 9301.	Prednisolone	78-90	caspase recruitment domain family member 16	Homo sapiens	97-100
15005346-0	2004	Phase III study of ranimustine, cyclophosphamide, vincristine, melphalan, and prednisolone (MCNU-COP/MP) versus modified COP/MP in multiple myeloma: a Japan clinical oncology group study, JCOG 9301.	ranimustine	92-96	caspase recruitment domain family member 16	Homo sapiens	97-100
15005346-1	2004	To investigate whether combination chemotherapy with vincristine, cyclophosphamide, prednisolone, and melphalan (COP/ MP) with the addition of ranimustine (MCNU) (MCNU-COP/MP) is superior to the slightly modified COP/MP (mCOP/MP) regimen in multiple myeloma (MM), a multicenter randomized study was performed.	Melphalan	102-111	caspase recruitment domain family member 16	Homo sapiens	113-116
15005346-1	2004	To investigate whether combination chemotherapy with vincristine, cyclophosphamide, prednisolone, and melphalan (COP/ MP) with the addition of ranimustine (MCNU) (MCNU-COP/MP) is superior to the slightly modified COP/MP (mCOP/MP) regimen in multiple myeloma (MM), a multicenter randomized study was performed.	ranimustine	143-154	caspase recruitment domain family member 16	Homo sapiens	168-171
15005346-1	2004	To investigate whether combination chemotherapy with vincristine, cyclophosphamide, prednisolone, and melphalan (COP/ MP) with the addition of ranimustine (MCNU) (MCNU-COP/MP) is superior to the slightly modified COP/MP (mCOP/MP) regimen in multiple myeloma (MM), a multicenter randomized study was performed.	ranimustine	143-154	caspase recruitment domain family member 16	Homo sapiens	168-171
15005346-1	2004	To investigate whether combination chemotherapy with vincristine, cyclophosphamide, prednisolone, and melphalan (COP/ MP) with the addition of ranimustine (MCNU) (MCNU-COP/MP) is superior to the slightly modified COP/MP (mCOP/MP) regimen in multiple myeloma (MM), a multicenter randomized study was performed.	ranimustine	163-167	caspase recruitment domain family member 16	Homo sapiens	168-171
15005346-1	2004	To investigate whether combination chemotherapy with vincristine, cyclophosphamide, prednisolone, and melphalan (COP/ MP) with the addition of ranimustine (MCNU) (MCNU-COP/MP) is superior to the slightly modified COP/MP (mCOP/MP) regimen in multiple myeloma (MM), a multicenter randomized study was performed.	ranimustine	163-167	caspase recruitment domain family member 16	Homo sapiens	168-171
15005346-4	2004	The progression-free survival (PFS) was significantly longer for patients treated with MCNU-COP/MP than for patients treated with mCOP/MP (median, 23.0 months [95% CI, 18.9-25.8] versus 15.8 months [95% CI, 14.1-19.4]) (P = .014).	ranimustine	87-91	caspase recruitment domain family member 16	Homo sapiens	92-95
15005346-7	2004	In conclusion, MCNU-COP/MP in comparison with mCOP/MP improved RR and PFS in overt MM; however, this outcome did not contribute to prolonging OS, indicating that addition of MCNU to mCOP/MP has no benefit on survival.	ranimustine	15-19	caspase recruitment domain family member 16	Homo sapiens	20-23
14719457-7	2003	COP (CHOP minus adriamycin) therapy has been given every four months on an out-patient basis.	Doxorubicin	16-26	caspase recruitment domain family member 16	Homo sapiens	0-3
14732933-1	2003	Glatiramer acetate (GA; Copaxone, also known as Copolymer 1 or Cop-1), a copolymer of amino acids, is very effective in the suppression of experimental autoimmune encephalitis (EAE), the animal model for multiple sclerosis (MS), in various species including primates.	Glatiramer Acetate	0-18	caspase recruitment domain family member 16	Homo sapiens	63-68
14732933-1	2003	Glatiramer acetate (GA; Copaxone, also known as Copolymer 1 or Cop-1), a copolymer of amino acids, is very effective in the suppression of experimental autoimmune encephalitis (EAE), the animal model for multiple sclerosis (MS), in various species including primates.	Glatiramer Acetate	20-22	caspase recruitment domain family member 16	Homo sapiens	63-68
14732933-1	2003	Glatiramer acetate (GA; Copaxone, also known as Copolymer 1 or Cop-1), a copolymer of amino acids, is very effective in the suppression of experimental autoimmune encephalitis (EAE), the animal model for multiple sclerosis (MS), in various species including primates.	Glatiramer Acetate	24-32	caspase recruitment domain family member 16	Homo sapiens	63-68
14732933-1	2003	Glatiramer acetate (GA; Copaxone, also known as Copolymer 1 or Cop-1), a copolymer of amino acids, is very effective in the suppression of experimental autoimmune encephalitis (EAE), the animal model for multiple sclerosis (MS), in various species including primates.	copolymer	48-57	caspase recruitment domain family member 16	Homo sapiens	63-68
14732933-1	2003	Glatiramer acetate (GA; Copaxone, also known as Copolymer 1 or Cop-1), a copolymer of amino acids, is very effective in the suppression of experimental autoimmune encephalitis (EAE), the animal model for multiple sclerosis (MS), in various species including primates.	copolymer	73-82	caspase recruitment domain family member 16	Homo sapiens	63-68
14732933-1	2003	Glatiramer acetate (GA; Copaxone, also known as Copolymer 1 or Cop-1), a copolymer of amino acids, is very effective in the suppression of experimental autoimmune encephalitis (EAE), the animal model for multiple sclerosis (MS), in various species including primates.	EAE	177-180	caspase recruitment domain family member 16	Homo sapiens	63-68
14531676-2	2003	COP-Cl catalyzes the rearrangement of (E)-allylic trichloroacetimidates to provide transposed allylic trichloroacetamides of high enantiopurity, a transformation that underlies the first truly practical method for transforming prochiral allylic alcohols to enantioenriched allylic amines and congeners.	trichloroacetamide	50-71	caspase recruitment domain family member 16	Homo sapiens	0-3
14531676-2	2003	COP-Cl catalyzes the rearrangement of (E)-allylic trichloroacetimidates to provide transposed allylic trichloroacetamides of high enantiopurity, a transformation that underlies the first truly practical method for transforming prochiral allylic alcohols to enantioenriched allylic amines and congeners.	trichloroacetamide	102-121	caspase recruitment domain family member 16	Homo sapiens	0-3
14531676-2	2003	COP-Cl catalyzes the rearrangement of (E)-allylic trichloroacetimidates to provide transposed allylic trichloroacetamides of high enantiopurity, a transformation that underlies the first truly practical method for transforming prochiral allylic alcohols to enantioenriched allylic amines and congeners.	Alcohols	245-253	caspase recruitment domain family member 16	Homo sapiens	0-3
14531676-2	2003	COP-Cl catalyzes the rearrangement of (E)-allylic trichloroacetimidates to provide transposed allylic trichloroacetamides of high enantiopurity, a transformation that underlies the first truly practical method for transforming prochiral allylic alcohols to enantioenriched allylic amines and congeners.	Amines	281-287	caspase recruitment domain family member 16	Homo sapiens	0-3
12855303-3	2003	Without handles, the anticipatory activation of the Gastrocnemius Medialis displaced the COP forwards, enabling the backward shift of the CG required to rock back on heels.	cysteinylglycine	138-140	caspase recruitment domain family member 16	Homo sapiens	89-92
11866428-7	2002	Our data do not exclude, however, that the histidine sequence simply mimics the lysine motif as a sorting signal, being recognised by and interacting with the same receptor subunit(s) in COP-I-coated vesicles.	Histidine	43-52	caspase recruitment domain family member 16	Homo sapiens	187-190
12931565-8	2003	After chemotherapy with the THP-COP regimen, the patient"s liver dysfunction improved rapidly, but she died from bacterial peritonitis due to perforation of a recurrent duodenal ulcer.	pirarubicin	28-31	caspase recruitment domain family member 16	Homo sapiens	32-35
14653077-5	2003	The CR rate and 5-year survival rate of patients who were treated by the scheme of doxorubicin, cyclophosphamide, vincristine and prednisone (CHOP) were higher than those treated by the scheme of cyclophosphamide, vincristine, prednisone and etoposide (COP + VP16) (P < 0.05).	Doxorubicin	83-94	caspase recruitment domain family member 16	Homo sapiens	253-256
14653077-5	2003	The CR rate and 5-year survival rate of patients who were treated by the scheme of doxorubicin, cyclophosphamide, vincristine and prednisone (CHOP) were higher than those treated by the scheme of cyclophosphamide, vincristine, prednisone and etoposide (COP + VP16) (P < 0.05).	Cyclophosphamide	96-112	caspase recruitment domain family member 16	Homo sapiens	253-256
14653077-5	2003	The CR rate and 5-year survival rate of patients who were treated by the scheme of doxorubicin, cyclophosphamide, vincristine and prednisone (CHOP) were higher than those treated by the scheme of cyclophosphamide, vincristine, prednisone and etoposide (COP + VP16) (P < 0.05).	Vincristine	114-125	caspase recruitment domain family member 16	Homo sapiens	253-256
14653077-5	2003	The CR rate and 5-year survival rate of patients who were treated by the scheme of doxorubicin, cyclophosphamide, vincristine and prednisone (CHOP) were higher than those treated by the scheme of cyclophosphamide, vincristine, prednisone and etoposide (COP + VP16) (P < 0.05).	Prednisone	130-140	caspase recruitment domain family member 16	Homo sapiens	253-256
12370942-4	2002	For FeP/Pz and CoP/Pz, the first oxidation occurs at the central metal, while it is the macroring of FePc and CoPc that is the site of oxidation.	Metals	65-70	caspase recruitment domain family member 16	Homo sapiens	15-18
12938276-7	2003	We performed dose-escalating chemotherapy: A half dose of THP-COP (pirarubicin, cyclophosphamide, vincristine) was given at the start in October 2001, 60% THP-COP as the next cycle, 80% THP-COP as the 3rd cycle and thereafter.	pirarubicin	58-61	caspase recruitment domain family member 16	Homo sapiens	62-65
11866428-7	2002	Our data do not exclude, however, that the histidine sequence simply mimics the lysine motif as a sorting signal, being recognised by and interacting with the same receptor subunit(s) in COP-I-coated vesicles.	Lysine	80-86	caspase recruitment domain family member 16	Homo sapiens	187-190
11579501-4	2001	The THP-COP regimen was not effective and the patient died of severe metabolic acidosis 2 months later.	pirarubicin	4-7	caspase recruitment domain family member 16	Homo sapiens	8-11
11463545-7	2001	During CPB, COP was reduced by 20% in the HES-group (18.9 +/- 3.7 vs. 23.7 +/- 2.2 mmHg, P < 0.05) while it was reduced by more than 50% of the pre-CPB value (9.8 +/- 2.0 vs. 21.4 +/- 2.1 mmHg, P < 0.05) in the crystalloid group (P < 0.05 HES- vs. crystalloid group).	Hydroxyethyl Starch Derivatives	42-45	caspase recruitment domain family member 16	Homo sapiens	12-15
11523171-0	2001	[CHF arising after low dose THP-COP chemotherapy in an elderly patient with malignant lymphoma].	pirarubicin	28-31	caspase recruitment domain family member 16	Homo sapiens	32-35
11523171-5	2001	We started chemotherapy according to the low-dose THP-COP protocol (pirarubicin, cyclophosphamide, vincristine and prednisolone) on the 31st hospital day.	pirarubicin	50-53	caspase recruitment domain family member 16	Homo sapiens	54-57
11523171-12	2001	When the THP-COP protocol is indicated in elderly patients, cardiotoxicity should be monitored even if the total dose of pirarubicin is very low.	pirarubicin	9-12	caspase recruitment domain family member 16	Homo sapiens	13-16
11279119-0	2001	Adjacent basic amino acid residues recognized by the COP I complex and ubiquitination govern endoplasmic reticulum to cell surface trafficking of the nicotinic acetylcholine receptor alpha-Subunit.	Amino Acids, Basic	9-25	caspase recruitment domain family member 16	Homo sapiens	53-56
11699226-0	2001	Liposomal daunorubicin (DaunoXome) in combination with cyclophosphamide, vincristine and prednisolone (COP-X) as salvage therapy in poor-prognosis non-Hodgkins lymphoma.	Daunorubicin	10-22	caspase recruitment domain family member 16	Homo sapiens	103-106
11699226-1	2001	We treated 33 patients with a variant of the standard 3 weekly CHOP regime, replacing doxorubicin with liposomal daunorubicin (DaunoXome, NeXstar Pharmaceuticals) 120 mg/m2 (COP-X).	Daunorubicin	113-125	caspase recruitment domain family member 16	Homo sapiens	174-177
11699226-16	2001	We conclude that the substitution of DaunoXome for doxorubicin in the CHOP regimen to form COP-X provides excellent efficacy against non-Hodgkin"s lymphoma.	Daunorubicin	37-46	caspase recruitment domain family member 16	Homo sapiens	91-94
11699226-16	2001	We conclude that the substitution of DaunoXome for doxorubicin in the CHOP regimen to form COP-X provides excellent efficacy against non-Hodgkin"s lymphoma.	Doxorubicin	51-62	caspase recruitment domain family member 16	Homo sapiens	91-94
11450997-8	2001	Chemotherapy was utilized with cyclophosphamide, vincristine and prednisolone (COP) initially for four courses and followed by adding doxorubicin (CHOP) for another three courses.	Prednisolone	65-77	caspase recruitment domain family member 16	Homo sapiens	79-82
11201151-5	2000	Treatment with the THP-COP regimen achieved clinical remission except for mild splenomegaly, but relapse of LAHS was confirmed two years after diagnosis.	pirarubicin	19-22	caspase recruitment domain family member 16	Homo sapiens	23-26
11284728-10	2001	Our results suggest that COP proteins are recruited to phagosomal membranes by a mechanism that involves heterotrimeric GTP-binding proteins and a BFA-sensitive ARF.	Guanosine Triphosphate	120-123	caspase recruitment domain family member 16	Homo sapiens	25-28
11284728-10	2001	Our results suggest that COP proteins are recruited to phagosomal membranes by a mechanism that involves heterotrimeric GTP-binding proteins and a BFA-sensitive ARF.	Brefeldin A	147-150	caspase recruitment domain family member 16	Homo sapiens	25-28
11071746-4	2000	However, in the case of goethite, it seemed that metal cations were located within the structure of COP goethite, but partially adsorbed in ADS goethite.	goethite	104-112	caspase recruitment domain family member 16	Homo sapiens	100-103
11071746-4	2000	However, in the case of goethite, it seemed that metal cations were located within the structure of COP goethite, but partially adsorbed in ADS goethite.	goethite	104-112	caspase recruitment domain family member 16	Homo sapiens	100-103
10793559-1	2000	We devised a new epirubicin-based combination chemotherapy (Epi-COP) regimen for the patients with elderly non-Hodgkin"s lymphoma and have treated 30 patients aged 66 years and older who had measurable diseases.	Epirubicin	17-27	caspase recruitment domain family member 16	Homo sapiens	64-67
9382865-8	1997	In contrast, all COP subunits, except obviously epsilonCOP itself, still bind BHK biosynthetic membranes in a pH-independent manner in vitro.	(2R)-2-benzyl-5-hydroxy-4-oxopentanoic acid	78-81	caspase recruitment domain family member 16	Homo sapiens	17-20
9843492-2	1998	For example, binding of COP1 to dilysine (KKXX) motifs induces specific retrieval of tagged proteins from the Golgi back to the endoplasmic reticulum (ER).	lysyllysine	32-40	caspase recruitment domain family member 16	Homo sapiens	24-28
10487746-0	1999	GTP hydrolysis by arf-1 mediates sorting and concentration of Golgi resident enzymes into functional COP I vesicles.	Guanosine Triphosphate	0-3	caspase recruitment domain family member 16	Homo sapiens	101-104
10487746-2	1999	We have developed an in vitro budding assay that reconstitutes the formation of COP I-derived vesicles under conditions where GTP hydrolysis can occur.	Guanosine Triphosphate	126-129	caspase recruitment domain family member 16	Homo sapiens	80-83
10487746-8	1999	We conclude that hydrolysis of GTP bound to arf-1 promotes selective segregation and concentration of Golgi resident enzymes into COP I vesicles.	Guanosine Triphosphate	31-34	caspase recruitment domain family member 16	Homo sapiens	130-133
10093687-2	1999	Based on the in vitro synergism of fludarabine with anthracyclines and on results showing a higher efficacy of CHOP against COP we attempted to improve treatment results with a combination of fludarabine and an anthracycline.	fludarabine	192-203	caspase recruitment domain family member 16	Homo sapiens	124-127
8663371-6	1996	Vesicles formed in the presence of the nonhydrolyzable GTP analogue guanosine 5"-3-O-(thio)triphosphate retained a nonclathrin protein coat resembling that of COP-coated vesicles, and sedimented more rapidly in a sucrose gradient than the uncoated ones generated in its absence.	Guanosine 5'-O-(3-Thiotriphosphate)	68-103	caspase recruitment domain family member 16	Homo sapiens	159-162
9364867-6	1997	Chemotherapy with pirarubicin, cyclophosphamide, vincristin, and prednisolone (THP-COP) was not effective for his lymphoma.	Prednisolone	65-77	caspase recruitment domain family member 16	Homo sapiens	83-86
7849504-2	1994	The past year has witnessed definition of discrete photosensory roles for phytochromes A and B, the cloning of a gene encoding the first apparent blue-light photoreceptor from any organism, the cloning of genes encoding additional members of the COP/DET/FUS class of light-responsive master regulators, and evidence that G proteins, Ca2+/calmodulin, and cGMP may be signaling intermediates in phototransduction.	Cyclic GMP	354-358	caspase recruitment domain family member 16	Homo sapiens	246-249
8693714-3	1996	The latter include ICRF-187 bispiperazinedione (dexrazoxan) which is manufactured and supplied by CHIRON Cop.	bispiperazinedione	28-46	caspase recruitment domain family member 16	Homo sapiens	105-108
8693714-3	1996	The latter include ICRF-187 bispiperazinedione (dexrazoxan) which is manufactured and supplied by CHIRON Cop.	Dexrazoxane	48-58	caspase recruitment domain family member 16	Homo sapiens	105-108
8826931-9	1995	CONCLUSION: If bleomycin is with held when diffusing capacity is diminished to 50% predicted, clinical compromise of pulmonary function appears to be minimal in pediatric patients receiving alternating cycles of COP/ ABVD in combination with low-dose mantle radiotherapy.	Bleomycin	15-24	caspase recruitment domain family member 16	Homo sapiens	212-215
8355790-5	1993	COP-coated buds may therefore form essentially by self-assembly from Golgi cisternae after an initial step in which GTP is used to allow ARF binding.	Guanosine Triphosphate	116-119	caspase recruitment domain family member 16	Homo sapiens	0-3
8167175-4	1994	Three of these four patients had been treated with combined modality therapy followed by maintenance COP chemotherapy, resulting in high cumulative doses of cyclophosphamide (range: 12-43 g).	Cyclophosphamide	157-173	caspase recruitment domain family member 16	Homo sapiens	101-104
7512523-4	1994	The patient first underwent neoadjuvant chemotherapy consisting of cyclophosphamide, vinblastine, epirubicin, bleomycin, procarbazin, and oncovin (COP-BLAM) to reduce the size of the tumor.	Vincristine	138-145	caspase recruitment domain family member 16	Homo sapiens	147-150
8252615-1	1993	Budding of COP-coated vesicles (the likely carriers of newly synthesized proteins from the endoplasmic reticulum through the Golgi stack) from Golgi cisternae requires ADP-ribosylation factor (ARF), coatomer proteins from the cytosol, GTP, and fatty acyl-coenzyme A (CoA).	Guanosine Triphosphate	235-238	caspase recruitment domain family member 16	Homo sapiens	11-14
7506802-2	1993	Twelve courses tetrahydropyranyl adriamycin, cyclophosphamide, vincristine and prednisone (THP-COP) combination chemotherapy led him to complete remission.	tetrahydropyranyl adriamycin	15-43	caspase recruitment domain family member 16	Homo sapiens	95-98
7506802-2	1993	Twelve courses tetrahydropyranyl adriamycin, cyclophosphamide, vincristine and prednisone (THP-COP) combination chemotherapy led him to complete remission.	Prednisone	79-89	caspase recruitment domain family member 16	Homo sapiens	95-98
1341182-13	1992	CONCLUSION: Furosemide administration reduced RAP, PAWP, HR, COP and PAWP-COP gradient, probably by a redistribution of fluid excess in the interstitial to intravascular space, through changes in driving fluid forces, with predominance in colloid osmotic pressure, which reverse fluid from intravascular to interstitial observed in pulmonary edema.	Furosemide	12-22	caspase recruitment domain family member 16	Homo sapiens	61-64
8500185-1	1993	The small GTP-binding protein, ADP-ribosylation factor (ARF), has previously been shown to mediate the binding to Golgi membranes of the coatomer of non-cathrin-coated (COP-coated) vesicles.	Guanosine Triphosphate	10-13	caspase recruitment domain family member 16	Homo sapiens	169-172
8440693-4	1993	Their phosphomonoester groups have predicted C-O-P bond energies of between 3.3 and 4 kcal mol-1; however, the bond energies of the P-O-P links in their diphosphate moieties are 6.6 kcal mol-1 and hence similar to the equivalent bonds in ADP, indicating a potential role for these compounds as phosphate donors in phosphotransferase reactions.	Phosphates	155-164	caspase recruitment domain family member 16	Homo sapiens	45-50
1341182-13	1992	CONCLUSION: Furosemide administration reduced RAP, PAWP, HR, COP and PAWP-COP gradient, probably by a redistribution of fluid excess in the interstitial to intravascular space, through changes in driving fluid forces, with predominance in colloid osmotic pressure, which reverse fluid from intravascular to interstitial observed in pulmonary edema.	Furosemide	12-22	caspase recruitment domain family member 16	Homo sapiens	74-77
1433946-0	1992	[Effective treatment of CMMoL with F-COP (epirubicine, cyclophosphamide, vincristine, prednisolone) therapy].	Epirubicin	42-53	caspase recruitment domain family member 16	Homo sapiens	37-40
1433946-0	1992	[Effective treatment of CMMoL with F-COP (epirubicine, cyclophosphamide, vincristine, prednisolone) therapy].	Prednisolone	86-98	caspase recruitment domain family member 16	Homo sapiens	37-40
1433946-7	1992	Treatment with F-COP (epirubicine, cyclophosphamide, vincristine, prednisolone) therapy, resulted in a dramatic improvement of her condition.	Epirubicin	22-33	caspase recruitment domain family member 16	Homo sapiens	17-20
1433946-7	1992	Treatment with F-COP (epirubicine, cyclophosphamide, vincristine, prednisolone) therapy, resulted in a dramatic improvement of her condition.	Cyclophosphamide	35-51	caspase recruitment domain family member 16	Homo sapiens	17-20
1433946-7	1992	Treatment with F-COP (epirubicine, cyclophosphamide, vincristine, prednisolone) therapy, resulted in a dramatic improvement of her condition.	Vincristine	53-64	caspase recruitment domain family member 16	Homo sapiens	17-20
1433946-7	1992	Treatment with F-COP (epirubicine, cyclophosphamide, vincristine, prednisolone) therapy, resulted in a dramatic improvement of her condition.	Prednisolone	66-78	caspase recruitment domain family member 16	Homo sapiens	17-20
33237088-0	2020	CoP and Ni2P implanted in a hollow porous N-doped carbon polyhedron for pH universal hydrogen evolution reaction and alkaline overall water splitting.	Carbon	50-56	caspase recruitment domain family member 16	Homo sapiens	0-3
27463490-4	1991	Chlorambucil (chl) given intermittently was compared with the combination COP in CLL 1: no differences in survival or response were observed although the response rate (CR + PR) of COP rose from 53% to 73% when the dose of cyclophosphamide was doubled; CR + PR with chl was 62%.	Cyclophosphamide	223-239	caspase recruitment domain family member 16	Homo sapiens	181-184
33807048-1	2021	This study exposes the potential usefulness of a new co-processed excipient, composed of alginic acid and microcrystalline cellulose (Cop AA-MCC), for the preparation of immediate drug release tablets by direct compression.	microcrystalline cellulose	106-132	caspase recruitment domain family member 16	Homo sapiens	134-137
33807048-6	2021	The study exposed evenly the performance of Cop AA-MCC compared to Prosolv  ODT, in terms of tabletability and dissolution rate of Melatonin.	Melatonin	131-140	caspase recruitment domain family member 16	Homo sapiens	44-47
33807048-7	2021	Cop AA-MCC presented comparable hardness, lower dilution potential, higher lubricant sensitivity, lower ejection force, and faster Melatonin"s release time than Prosolv  ODT.	Melatonin	131-140	caspase recruitment domain family member 16	Homo sapiens	0-3
33802797-5	2021	Moreover, the peak heat release rate (pHRR), peak smoke produce rate (pSPR)and carbon monoxide production (COP)values significantly decreased by 26.0%, 16.7% and 37.5%, respectively, which indicates the outstanding fire and smoke suppression of GO-HCCP.	Carbon Monoxide	79-94	caspase recruitment domain family member 16	Homo sapiens	107-110
33237088-0	2020	CoP and Ni2P implanted in a hollow porous N-doped carbon polyhedron for pH universal hydrogen evolution reaction and alkaline overall water splitting.	Hydrogen	85-93	caspase recruitment domain family member 16	Homo sapiens	0-3
33237088-0	2020	CoP and Ni2P implanted in a hollow porous N-doped carbon polyhedron for pH universal hydrogen evolution reaction and alkaline overall water splitting.	Water	134-139	caspase recruitment domain family member 16	Homo sapiens	0-3
33237088-2	2020	Herein, a novel bifunctional electrocatalyst composed of CoP and Ni2P nanoparticles implanted in a hollow porous N-doped carbon polyhedron (CoP/Ni2P@HPNCP) is synthesized by carbonization of Co/Ni-layered double hydroxide@zeolitic imidazolate framework-67 (Co/Ni-LDH@ZIF-67) followed by an oxidation and phosphorization strategy.	n-doped	113-120	caspase recruitment domain family member 16	Homo sapiens	57-60
33237088-2	2020	Herein, a novel bifunctional electrocatalyst composed of CoP and Ni2P nanoparticles implanted in a hollow porous N-doped carbon polyhedron (CoP/Ni2P@HPNCP) is synthesized by carbonization of Co/Ni-layered double hydroxide@zeolitic imidazolate framework-67 (Co/Ni-LDH@ZIF-67) followed by an oxidation and phosphorization strategy.	n-doped	113-120	caspase recruitment domain family member 16	Homo sapiens	140-143
33237088-2	2020	Herein, a novel bifunctional electrocatalyst composed of CoP and Ni2P nanoparticles implanted in a hollow porous N-doped carbon polyhedron (CoP/Ni2P@HPNCP) is synthesized by carbonization of Co/Ni-layered double hydroxide@zeolitic imidazolate framework-67 (Co/Ni-LDH@ZIF-67) followed by an oxidation and phosphorization strategy.	Carbon	121-127	caspase recruitment domain family member 16	Homo sapiens	57-60
33237088-2	2020	Herein, a novel bifunctional electrocatalyst composed of CoP and Ni2P nanoparticles implanted in a hollow porous N-doped carbon polyhedron (CoP/Ni2P@HPNCP) is synthesized by carbonization of Co/Ni-layered double hydroxide@zeolitic imidazolate framework-67 (Co/Ni-LDH@ZIF-67) followed by an oxidation and phosphorization strategy.	hydroxide ion	212-221	caspase recruitment domain family member 16	Homo sapiens	57-60
33237088-3	2020	The introduction of LDH can not only promote the formation of a hollow porous structure to supply more active sites, but also generate the CoP/Ni2P nanoheterostructure to afford extra active sites and modulate the electronic structure of the catalyst.	ni2p	143-147	caspase recruitment domain family member 16	Homo sapiens	139-142
33237088-4	2020	As a result, CoP/Ni2P@HPNCP exhibits excellent pH universal hydrogen evolution reaction activity and alkaline oxygen evolution reaction activity.	Hydrogen	60-68	caspase recruitment domain family member 16	Homo sapiens	13-16
33237088-4	2020	As a result, CoP/Ni2P@HPNCP exhibits excellent pH universal hydrogen evolution reaction activity and alkaline oxygen evolution reaction activity.	Oxygen	110-116	caspase recruitment domain family member 16	Homo sapiens	13-16
33237088-5	2020	Furthermore, the electrolytic cell assembled from bifunctional CoP/Ni2P@HPNCP requires a cell voltage of 1.59 V in 1.0 M KOH at 10 mA cm-2, revealing its potential as a high performance bifunctional electrocatalyst.	potassium hydroxide	121-124	caspase recruitment domain family member 16	Homo sapiens	63-66
34848056-0	2022	One-dimensional CoP/MnO hollow nanostructures with enhanced oxygen evolution reaction activity.	Oxygen	60-66	caspase recruitment domain family member 16	Homo sapiens	16-19
34848056-2	2022	In this study, the CoP/MnO hollow nanofibers with the advantages of a more extensive contact interface were successfully synthesized.	mno	23-26	caspase recruitment domain family member 16	Homo sapiens	19-22
34973660-0	2022	High-capacity CoP-Mn3P nanoclusters heterostructures derived by Co2MnO4 as advanced electrodes for supercapacitors.	co2mno4	64-71	caspase recruitment domain family member 16	Homo sapiens	14-17
34973660-3	2022	The heterojunction formed between CoP and Mn3P redistributes the charge at the interface between them, generating the built-in electric field to accelerate electron transfer, and thus the conductivity of the electrode is enhanced.	mn3p	42-46	caspase recruitment domain family member 16	Homo sapiens	34-37
34758919-0	2022	In-situ generated NiCo2O4/CoP polyhedron with rich oxygen vacancies interpenetrating by P-doped carbon nanotubes for high performance supercapacitors.	nico2o4	18-25	caspase recruitment domain family member 16	Homo sapiens	26-29
34758919-0	2022	In-situ generated NiCo2O4/CoP polyhedron with rich oxygen vacancies interpenetrating by P-doped carbon nanotubes for high performance supercapacitors.	Carbon	96-102	caspase recruitment domain family member 16	Homo sapiens	26-29
34758919-2	2022	Herein, we design a novel self-supporting P-doped carbon nanotube (P-CNT) intercalating NiCo2O4/CoP core-shell polyhedron film.	Nanotubes, Carbon	50-65	caspase recruitment domain family member 16	Homo sapiens	96-99
34758919-2	2022	Herein, we design a novel self-supporting P-doped carbon nanotube (P-CNT) intercalating NiCo2O4/CoP core-shell polyhedron film.	nico2o4	88-95	caspase recruitment domain family member 16	Homo sapiens	96-99
34758919-4	2022	NiCo2O4/CoP core-shell fluffy polyhedrons are derived from metal-organic frameworks with rich oxygen vacancies and abundant characteristics of pseudocapacitance, as well as better wettability.	nico2o4	0-7	caspase recruitment domain family member 16	Homo sapiens	8-11
34758919-4	2022	NiCo2O4/CoP core-shell fluffy polyhedrons are derived from metal-organic frameworks with rich oxygen vacancies and abundant characteristics of pseudocapacitance, as well as better wettability.	Metals	59-64	caspase recruitment domain family member 16	Homo sapiens	8-11
34758919-4	2022	NiCo2O4/CoP core-shell fluffy polyhedrons are derived from metal-organic frameworks with rich oxygen vacancies and abundant characteristics of pseudocapacitance, as well as better wettability.	Oxygen	94-100	caspase recruitment domain family member 16	Homo sapiens	8-11
34758919-7	2022	Our work suggests that the rational-designed NiCo2O4/CoP@P-CNTs electrode is a competitive candidate for designing next-generation supercapacitors with high volumetric energy density.	nico2o4	45-52	caspase recruitment domain family member 16	Homo sapiens	53-56
34848056-5	2022	It is worth noting that the CoP/MnO composite material only needs an overpotential of 230 mV at a current density of 10 mA cm-2.	mno	32-35	caspase recruitment domain family member 16	Homo sapiens	28-31
34962378-0	2022	MOF-on-MOF Strategy to Construct a Nitrogen-Doped Carbon-Incorporated CoP@Fe-CoP Core-Shelled Heterostructure for High-Performance Overall Water Splitting.	Nitrogen	35-43	caspase recruitment domain family member 16	Homo sapiens	70-73
34492459-5	2022	While the FPUF/rGO@Cu2O demonstrate excellent smoke and toxic gases suppression in FPUF, the PSPR and TSR are reduced by 24.6% and 51.9%, and the COP and COY are also reduced by 51.9% and 55.3%, respectively.	cuprous oxide	19-23	caspase recruitment domain family member 16	Homo sapiens	146-149
34761518-5	2022	CoP-HS exhibits the best catalytic activity for HER among these CoPx -HS in both acidic and alkaline media, originating from the adjusted electronic density of phosphorus to affect absorption-desorption process on H. Moreover, the calculated DeltaGH* based on P-sites of CoP-HS follows a quite similar trend with the normalized overpotential and Tafel slope, indicating the important role of P-sites for the HER process.	Phosphorus	160-170	caspase recruitment domain family member 16	Homo sapiens	0-3
34761518-5	2022	CoP-HS exhibits the best catalytic activity for HER among these CoPx -HS in both acidic and alkaline media, originating from the adjusted electronic density of phosphorus to affect absorption-desorption process on H. Moreover, the calculated DeltaGH* based on P-sites of CoP-HS follows a quite similar trend with the normalized overpotential and Tafel slope, indicating the important role of P-sites for the HER process.	Phosphorus	160-170	caspase recruitment domain family member 16	Homo sapiens	271-274
34761518-6	2022	Moreover, CoP-HS displays good performance (cell voltage of 1.67 V at a current density of 50 mA cm-2 ) and high stability in 1 M KOH.	potassium hydroxide	130-133	caspase recruitment domain family member 16	Homo sapiens	10-13
34870367-0	2022	Directionally In Situ Self-Assembled, High-Density, Macropore-Oriented, CoP-Impregnated, 3D Hierarchical Porous Carbon Sheet Nanostructure for Superior Electrocatalysis in the Hydrogen Evolution Reaction.	Hydrogen	176-184	caspase recruitment domain family member 16	Homo sapiens	72-75
34870367-1	2022	3D ZIF-67-particles-impregnated cellulose-nanofiber nanosheets with oriented macropores are synthesized via directional-freezing-assisted in situ self-assembly, and converted to 3D CoP-nanoparticle (NP)-embedded hierarchical, but macropores-oriented, N-doped carbon nanosheets via calcination and phosphidation.	Carbon	259-265	caspase recruitment domain family member 16	Homo sapiens	181-184
34870367-5	2022	The outstanding catalytic activity is ascribed to the uniformly-dispersed small CoP NPs in the 3D carbon sheets and the hierarchical nanostructure with rich oriented pores.	Carbon	98-104	caspase recruitment domain family member 16	Homo sapiens	80-83
34958192-11	2022	Specifically, we target the interaction of hydrofluorocarbon refrigerants with MOF/COP materials at a molecular level by interpreting the host-guest chemistry and the role of framework pore topology.	hydrofluorocarbon	43-60	caspase recruitment domain family member 16	Homo sapiens	83-86
34959601-7	2021	Collectively, the %O-Ag dep Ab response is a bona fide COP for S4DeltaguaBA-vaccinated Rb and holds significant promise for guiding vaccine trials with higher animals.	o-ag	19-23	caspase recruitment domain family member 16	Homo sapiens	55-58
34962378-2	2022	Herein, we prepared nitrogen-doped carbon-incorporated CoP@Fe-CoP core-shelled nanorod arrays grown on Ni foam (CoP@Fe-CoP/NC/NF) through phosphorization of ZIF-67@Co-Fe Prussian blue analogue (ZIF-67@CoFe-PBA).	co-fe prussian blue	164-183	caspase recruitment domain family member 16	Homo sapiens	119-122
34962378-0	2022	MOF-on-MOF Strategy to Construct a Nitrogen-Doped Carbon-Incorporated CoP@Fe-CoP Core-Shelled Heterostructure for High-Performance Overall Water Splitting.	Nitrogen	35-43	caspase recruitment domain family member 16	Homo sapiens	77-80
34962378-5	2022	Benefiting from the above superiorities of morphological and chemical compositions, this self-supported CoP@Fe-CoP/NC/NF heterostructure can drive alkaline hydrogen evolution reaction and oxygen evolution reaction with overpotentials of 97 and 270 mV to yield 100 mA cm-2, respectively.	Hydrogen	156-164	caspase recruitment domain family member 16	Homo sapiens	104-107
34962378-5	2022	Benefiting from the above superiorities of morphological and chemical compositions, this self-supported CoP@Fe-CoP/NC/NF heterostructure can drive alkaline hydrogen evolution reaction and oxygen evolution reaction with overpotentials of 97 and 270 mV to yield 100 mA cm-2, respectively.	Hydrogen	156-164	caspase recruitment domain family member 16	Homo sapiens	111-114
34962378-5	2022	Benefiting from the above superiorities of morphological and chemical compositions, this self-supported CoP@Fe-CoP/NC/NF heterostructure can drive alkaline hydrogen evolution reaction and oxygen evolution reaction with overpotentials of 97 and 270 mV to yield 100 mA cm-2, respectively.	Oxygen	188-194	caspase recruitment domain family member 16	Homo sapiens	104-107
34962378-5	2022	Benefiting from the above superiorities of morphological and chemical compositions, this self-supported CoP@Fe-CoP/NC/NF heterostructure can drive alkaline hydrogen evolution reaction and oxygen evolution reaction with overpotentials of 97 and 270 mV to yield 100 mA cm-2, respectively.	Oxygen	188-194	caspase recruitment domain family member 16	Homo sapiens	111-114
34962378-0	2022	MOF-on-MOF Strategy to Construct a Nitrogen-Doped Carbon-Incorporated CoP@Fe-CoP Core-Shelled Heterostructure for High-Performance Overall Water Splitting.	Carbon	50-56	caspase recruitment domain family member 16	Homo sapiens	70-73
34962378-0	2022	MOF-on-MOF Strategy to Construct a Nitrogen-Doped Carbon-Incorporated CoP@Fe-CoP Core-Shelled Heterostructure for High-Performance Overall Water Splitting.	Carbon	50-56	caspase recruitment domain family member 16	Homo sapiens	77-80
34962378-0	2022	MOF-on-MOF Strategy to Construct a Nitrogen-Doped Carbon-Incorporated CoP@Fe-CoP Core-Shelled Heterostructure for High-Performance Overall Water Splitting.	Water	139-144	caspase recruitment domain family member 16	Homo sapiens	70-73
34962378-0	2022	MOF-on-MOF Strategy to Construct a Nitrogen-Doped Carbon-Incorporated CoP@Fe-CoP Core-Shelled Heterostructure for High-Performance Overall Water Splitting.	Water	139-144	caspase recruitment domain family member 16	Homo sapiens	77-80
34962378-2	2022	Herein, we prepared nitrogen-doped carbon-incorporated CoP@Fe-CoP core-shelled nanorod arrays grown on Ni foam (CoP@Fe-CoP/NC/NF) through phosphorization of ZIF-67@Co-Fe Prussian blue analogue (ZIF-67@CoFe-PBA).	Nitrogen	20-28	caspase recruitment domain family member 16	Homo sapiens	55-58
34962378-2	2022	Herein, we prepared nitrogen-doped carbon-incorporated CoP@Fe-CoP core-shelled nanorod arrays grown on Ni foam (CoP@Fe-CoP/NC/NF) through phosphorization of ZIF-67@Co-Fe Prussian blue analogue (ZIF-67@CoFe-PBA).	Nitrogen	20-28	caspase recruitment domain family member 16	Homo sapiens	62-65
34962378-2	2022	Herein, we prepared nitrogen-doped carbon-incorporated CoP@Fe-CoP core-shelled nanorod arrays grown on Ni foam (CoP@Fe-CoP/NC/NF) through phosphorization of ZIF-67@Co-Fe Prussian blue analogue (ZIF-67@CoFe-PBA).	Nitrogen	20-28	caspase recruitment domain family member 16	Homo sapiens	112-115
34962378-2	2022	Herein, we prepared nitrogen-doped carbon-incorporated CoP@Fe-CoP core-shelled nanorod arrays grown on Ni foam (CoP@Fe-CoP/NC/NF) through phosphorization of ZIF-67@Co-Fe Prussian blue analogue (ZIF-67@CoFe-PBA).	Nitrogen	20-28	caspase recruitment domain family member 16	Homo sapiens	119-122
34962378-2	2022	Herein, we prepared nitrogen-doped carbon-incorporated CoP@Fe-CoP core-shelled nanorod arrays grown on Ni foam (CoP@Fe-CoP/NC/NF) through phosphorization of ZIF-67@Co-Fe Prussian blue analogue (ZIF-67@CoFe-PBA).	Carbon	35-41	caspase recruitment domain family member 16	Homo sapiens	55-58
34962378-2	2022	Herein, we prepared nitrogen-doped carbon-incorporated CoP@Fe-CoP core-shelled nanorod arrays grown on Ni foam (CoP@Fe-CoP/NC/NF) through phosphorization of ZIF-67@Co-Fe Prussian blue analogue (ZIF-67@CoFe-PBA).	Carbon	35-41	caspase recruitment domain family member 16	Homo sapiens	62-65
34962378-2	2022	Herein, we prepared nitrogen-doped carbon-incorporated CoP@Fe-CoP core-shelled nanorod arrays grown on Ni foam (CoP@Fe-CoP/NC/NF) through phosphorization of ZIF-67@Co-Fe Prussian blue analogue (ZIF-67@CoFe-PBA).	Carbon	35-41	caspase recruitment domain family member 16	Homo sapiens	112-115
34962378-2	2022	Herein, we prepared nitrogen-doped carbon-incorporated CoP@Fe-CoP core-shelled nanorod arrays grown on Ni foam (CoP@Fe-CoP/NC/NF) through phosphorization of ZIF-67@Co-Fe Prussian blue analogue (ZIF-67@CoFe-PBA).	Carbon	35-41	caspase recruitment domain family member 16	Homo sapiens	119-122
34962378-2	2022	Herein, we prepared nitrogen-doped carbon-incorporated CoP@Fe-CoP core-shelled nanorod arrays grown on Ni foam (CoP@Fe-CoP/NC/NF) through phosphorization of ZIF-67@Co-Fe Prussian blue analogue (ZIF-67@CoFe-PBA).	Iron	59-61	caspase recruitment domain family member 16	Homo sapiens	55-58
34962378-2	2022	Herein, we prepared nitrogen-doped carbon-incorporated CoP@Fe-CoP core-shelled nanorod arrays grown on Ni foam (CoP@Fe-CoP/NC/NF) through phosphorization of ZIF-67@Co-Fe Prussian blue analogue (ZIF-67@CoFe-PBA).	Iron	59-61	caspase recruitment domain family member 16	Homo sapiens	62-65
34962378-2	2022	Herein, we prepared nitrogen-doped carbon-incorporated CoP@Fe-CoP core-shelled nanorod arrays grown on Ni foam (CoP@Fe-CoP/NC/NF) through phosphorization of ZIF-67@Co-Fe Prussian blue analogue (ZIF-67@CoFe-PBA).	Iron	59-61	caspase recruitment domain family member 16	Homo sapiens	112-115
34962378-2	2022	Herein, we prepared nitrogen-doped carbon-incorporated CoP@Fe-CoP core-shelled nanorod arrays grown on Ni foam (CoP@Fe-CoP/NC/NF) through phosphorization of ZIF-67@Co-Fe Prussian blue analogue (ZIF-67@CoFe-PBA).	Iron	59-61	caspase recruitment domain family member 16	Homo sapiens	119-122
34962378-2	2022	Herein, we prepared nitrogen-doped carbon-incorporated CoP@Fe-CoP core-shelled nanorod arrays grown on Ni foam (CoP@Fe-CoP/NC/NF) through phosphorization of ZIF-67@Co-Fe Prussian blue analogue (ZIF-67@CoFe-PBA).	co-fe prussian blue	164-183	caspase recruitment domain family member 16	Homo sapiens	55-58
34962378-2	2022	Herein, we prepared nitrogen-doped carbon-incorporated CoP@Fe-CoP core-shelled nanorod arrays grown on Ni foam (CoP@Fe-CoP/NC/NF) through phosphorization of ZIF-67@Co-Fe Prussian blue analogue (ZIF-67@CoFe-PBA).	co-fe prussian blue	164-183	caspase recruitment domain family member 16	Homo sapiens	62-65
34913578-3	2022	The as-fabricated electrode of CoP@CF-900, when used as both the cathode and anode for overall water splitting, is able to deliver 200 mA cm-2 at a cell voltage of 1.89 V, significantly outshining the Pt/C  RuO2 couple; when used as the air cathode for a zinc-air battery, is able to operate more than 150 h at 10 mA cm-2 with a nearly constant round-trip energy efficiency of  60%, also outperforming the Pt/C+RuO2 benchmark.	Water	95-100	caspase recruitment domain family member 16	Homo sapiens	31-34
34962378-2	2022	Herein, we prepared nitrogen-doped carbon-incorporated CoP@Fe-CoP core-shelled nanorod arrays grown on Ni foam (CoP@Fe-CoP/NC/NF) through phosphorization of ZIF-67@Co-Fe Prussian blue analogue (ZIF-67@CoFe-PBA).	co-fe prussian blue	164-183	caspase recruitment domain family member 16	Homo sapiens	112-115
34265689-5	2021	Additionally, the combination of CoP/NC polyhedra and rGO nanosheets can build a fascinating 3D architecture to further improve the electronic conductivity of materials, as well as effectively preventing the aggregation of CoP/NC polyhedra.	polyhedra	40-49	caspase recruitment domain family member 16	Homo sapiens	223-226
34913578-3	2022	The as-fabricated electrode of CoP@CF-900, when used as both the cathode and anode for overall water splitting, is able to deliver 200 mA cm-2 at a cell voltage of 1.89 V, significantly outshining the Pt/C  RuO2 couple; when used as the air cathode for a zinc-air battery, is able to operate more than 150 h at 10 mA cm-2 with a nearly constant round-trip energy efficiency of  60%, also outperforming the Pt/C+RuO2 benchmark.	ruthenium dioxide	207-211	caspase recruitment domain family member 16	Homo sapiens	31-34
34265689-0	2021	Reduced graphene oxide supported ZIF-67 derived CoP enables high-performance potassium ion storage.	graphene oxide	8-22	caspase recruitment domain family member 16	Homo sapiens	48-51
34265689-0	2021	Reduced graphene oxide supported ZIF-67 derived CoP enables high-performance potassium ion storage.	Potassium	77-86	caspase recruitment domain family member 16	Homo sapiens	48-51
34265689-3	2021	Herein, we designed N-doped carbon restricted CoP polyhedra embedded into reduced graphene oxide (rGO) sheet (CoP/NC@rGO) through coupling the function of ZIF-67 and rGO.	Carbon	28-34	caspase recruitment domain family member 16	Homo sapiens	46-49
34265689-3	2021	Herein, we designed N-doped carbon restricted CoP polyhedra embedded into reduced graphene oxide (rGO) sheet (CoP/NC@rGO) through coupling the function of ZIF-67 and rGO.	Carbon	28-34	caspase recruitment domain family member 16	Homo sapiens	110-113
34265689-3	2021	Herein, we designed N-doped carbon restricted CoP polyhedra embedded into reduced graphene oxide (rGO) sheet (CoP/NC@rGO) through coupling the function of ZIF-67 and rGO.	graphene oxide	82-96	caspase recruitment domain family member 16	Homo sapiens	46-49
34265689-3	2021	Herein, we designed N-doped carbon restricted CoP polyhedra embedded into reduced graphene oxide (rGO) sheet (CoP/NC@rGO) through coupling the function of ZIF-67 and rGO.	graphene oxide	82-96	caspase recruitment domain family member 16	Homo sapiens	110-113
34265689-4	2021	For this composite, nano-scale CoP particles can be encapsulated by ZIF-67 derived carbon matrix, which significantly alleviates the volume change and promotes K+/e- transfer.	Carbon	83-89	caspase recruitment domain family member 16	Homo sapiens	31-34
34265689-5	2021	Additionally, the combination of CoP/NC polyhedra and rGO nanosheets can build a fascinating 3D architecture to further improve the electronic conductivity of materials, as well as effectively preventing the aggregation of CoP/NC polyhedra.	polyhedra	40-49	caspase recruitment domain family member 16	Homo sapiens	33-36
34265689-5	2021	Additionally, the combination of CoP/NC polyhedra and rGO nanosheets can build a fascinating 3D architecture to further improve the electronic conductivity of materials, as well as effectively preventing the aggregation of CoP/NC polyhedra.	rgo	54-57	caspase recruitment domain family member 16	Homo sapiens	33-36
34265689-5	2021	Additionally, the combination of CoP/NC polyhedra and rGO nanosheets can build a fascinating 3D architecture to further improve the electronic conductivity of materials, as well as effectively preventing the aggregation of CoP/NC polyhedra.	rgo	54-57	caspase recruitment domain family member 16	Homo sapiens	223-226
34265689-5	2021	Additionally, the combination of CoP/NC polyhedra and rGO nanosheets can build a fascinating 3D architecture to further improve the electronic conductivity of materials, as well as effectively preventing the aggregation of CoP/NC polyhedra.	polyhedra	230-239	caspase recruitment domain family member 16	Homo sapiens	33-36
34265689-5	2021	Additionally, the combination of CoP/NC polyhedra and rGO nanosheets can build a fascinating 3D architecture to further improve the electronic conductivity of materials, as well as effectively preventing the aggregation of CoP/NC polyhedra.	polyhedra	230-239	caspase recruitment domain family member 16	Homo sapiens	223-226
34812811-0	2021	Self-supporting CoP-C nanosheet arrays derived from a metal-organic framework as synergistic catalysts for efficient water splitting.	Water	117-122	caspase recruitment domain family member 16	Homo sapiens	16-19
34846399-0	2021	Construction of Fe-doped CoP with hybrid nanostructures as a bifunctional catalyst for overall water splitting.	Iron	16-18	caspase recruitment domain family member 16	Homo sapiens	25-28
34846399-0	2021	Construction of Fe-doped CoP with hybrid nanostructures as a bifunctional catalyst for overall water splitting.	Water	95-100	caspase recruitment domain family member 16	Homo sapiens	25-28
34846399-2	2021	Herein, we report a PBA derived Fe0.25-CoP electrocatalyst with a hybrid nanostructure, which offered a large specific surface area and active sites for the HER and OER, respectively.	4-phenylbutyric acid	20-23	caspase recruitment domain family member 16	Homo sapiens	39-42
34846399-3	2021	The as-synthesized Fe0.25-CoP catalyst exhibits remarkable catalytic performance and durability at overpotentials of 262 mV for the OER and 111 mV for the HER, requiring a voltage of merely 1.57 V to achieve a current density of 10 mA cm-2 for the electrocatalytic water splitting process.	Water	265-270	caspase recruitment domain family member 16	Homo sapiens	26-29
34846399-4	2021	The preeminent activity of Fe0.25-CoP was mainly ascribed to the framework structures of Co-PBA and appropriate doping of Fe3+ which regulated the electronic structures and morphology of Fe0.25-CoP.	ferric sulfate	122-126	caspase recruitment domain family member 16	Homo sapiens	34-37
34846399-4	2021	The preeminent activity of Fe0.25-CoP was mainly ascribed to the framework structures of Co-PBA and appropriate doping of Fe3+ which regulated the electronic structures and morphology of Fe0.25-CoP.	ferric sulfate	122-126	caspase recruitment domain family member 16	Homo sapiens	194-197
34812811-0	2021	Self-supporting CoP-C nanosheet arrays derived from a metal-organic framework as synergistic catalysts for efficient water splitting.	Metals	54-59	caspase recruitment domain family member 16	Homo sapiens	16-19
34812811-5	2021	CoP-CNT/Ni2P/NF performs better in the oxygen evolution reaction (eta50 = 301 mV), benefiting mainly from its improved electrochemically active surface area.	Oxygen	39-45	caspase recruitment domain family member 16	Homo sapiens	0-3
34812037-0	2021	Tuning the Electronic Structure of the CoP/Ni2P Nanostructure by Nitrogen Doping for an Efficient Hydrogen Evolution Reaction in Alkaline Media.	Nitrogen	65-73	caspase recruitment domain family member 16	Homo sapiens	39-42
34812037-4	2021	The prepared N-CoP/Ni2P@NF exhibits excellent electrocatalytic hydrogen evolution reaction (HER) performance, which merely requires an overpotential of -46 mV at -10 mA cm-2 and shows a negligible decay after a long durability test for 72 h in alkaline (1.0 M KOH) media.	potassium hydroxide	260-263	caspase recruitment domain family member 16	Homo sapiens	15-18
34812037-0	2021	Tuning the Electronic Structure of the CoP/Ni2P Nanostructure by Nitrogen Doping for an Efficient Hydrogen Evolution Reaction in Alkaline Media.	Hydrogen	98-106	caspase recruitment domain family member 16	Homo sapiens	39-42
34812037-0	2021	Tuning the Electronic Structure of the CoP/Ni2P Nanostructure by Nitrogen Doping for an Efficient Hydrogen Evolution Reaction in Alkaline Media.	alkaline	129-137	caspase recruitment domain family member 16	Homo sapiens	39-42
34812037-2	2021	Herein, a self-supported and nitrogen-doped hybrid CoP/Ni2P was synthesized through a simple two-step hydrothermal process followed by low-temperature phosphorization and nitridation (N-CoP/Ni2P@NF).	Nitrogen	29-37	caspase recruitment domain family member 16	Homo sapiens	51-54
34812037-2	2021	Herein, a self-supported and nitrogen-doped hybrid CoP/Ni2P was synthesized through a simple two-step hydrothermal process followed by low-temperature phosphorization and nitridation (N-CoP/Ni2P@NF).	Nitrogen	29-37	caspase recruitment domain family member 16	Homo sapiens	186-189
34812037-3	2021	Both experimental and density functional theory calculation results suggest that nitrogen doping can tune the electrical structure of the CoP/Ni2P heterostructure and thus optimize the free energy of adsorbed H on the surface of N-CoP/Ni2P@NF and accelerate the electronic transport activity.	Nitrogen	81-89	caspase recruitment domain family member 16	Homo sapiens	138-141
34812037-3	2021	Both experimental and density functional theory calculation results suggest that nitrogen doping can tune the electrical structure of the CoP/Ni2P heterostructure and thus optimize the free energy of adsorbed H on the surface of N-CoP/Ni2P@NF and accelerate the electronic transport activity.	Nitrogen	81-89	caspase recruitment domain family member 16	Homo sapiens	231-234
34812037-4	2021	The prepared N-CoP/Ni2P@NF exhibits excellent electrocatalytic hydrogen evolution reaction (HER) performance, which merely requires an overpotential of -46 mV at -10 mA cm-2 and shows a negligible decay after a long durability test for 72 h in alkaline (1.0 M KOH) media.	Hydrogen	63-71	caspase recruitment domain family member 16	Homo sapiens	15-18
34426217-3	2021	This environmental concern, which entails all economic agents" responsibility, has not gone unnoticed, so in 2015 the Paris Climate Conference (COP: 21) was held, whose main objective is to reduce carbon emissions on the planet.	Carbon	197-203	caspase recruitment domain family member 16	Homo sapiens	144-147
34186386-0	2021	Amorphous CoP nanoparticle composites with nitrogen-doped hollow carbon nanospheres for synergetic anchoring and catalytic conversion of polysulfides in Li-S batteries.	polysulfide	137-149	caspase recruitment domain family member 16	Homo sapiens	10-13
34186386-0	2021	Amorphous CoP nanoparticle composites with nitrogen-doped hollow carbon nanospheres for synergetic anchoring and catalytic conversion of polysulfides in Li-S batteries.	Sulfur	156-157	caspase recruitment domain family member 16	Homo sapiens	10-13
34186386-2	2021	To tackle these challenges, the amorphous CoP anchored on N-doped carbon nanospheres with hollow porous structures (CoP/HCS) has been synthesized as a superior sulfur host via a facial pyrolysis approach.	Carbon	66-72	caspase recruitment domain family member 16	Homo sapiens	116-119
34186386-2	2021	To tackle these challenges, the amorphous CoP anchored on N-doped carbon nanospheres with hollow porous structures (CoP/HCS) has been synthesized as a superior sulfur host via a facial pyrolysis approach.	Sulfur	160-166	caspase recruitment domain family member 16	Homo sapiens	116-119
34186386-4	2021	The amorphous CoP nanoparticles not only catalyze the transformation of lithium polysulfides as electrocatalyst, but also acquired a high sulfur loading as sulfur host materials.	lithium polysulfides	72-92	caspase recruitment domain family member 16	Homo sapiens	14-17
34186386-4	2021	The amorphous CoP nanoparticles not only catalyze the transformation of lithium polysulfides as electrocatalyst, but also acquired a high sulfur loading as sulfur host materials.	Sulfur	138-144	caspase recruitment domain family member 16	Homo sapiens	14-17
34186386-4	2021	The amorphous CoP nanoparticles not only catalyze the transformation of lithium polysulfides as electrocatalyst, but also acquired a high sulfur loading as sulfur host materials.	Sulfur	156-162	caspase recruitment domain family member 16	Homo sapiens	14-17
34186386-5	2021	More importantly, the synergistic incorporation of CoP and HCS improved the inherit low conductivity by anchoring on the N-doped carbon hollow, thus leading to excellent performance for Li-S batteries.	Carbon	129-135	caspase recruitment domain family member 16	Homo sapiens	51-54
34186386-5	2021	More importantly, the synergistic incorporation of CoP and HCS improved the inherit low conductivity by anchoring on the N-doped carbon hollow, thus leading to excellent performance for Li-S batteries.	Sulfur	189-190	caspase recruitment domain family member 16	Homo sapiens	51-54
34186386-6	2021	Benefiting from these advantages, the amorphous CoP/HCS-based sulfur electrodes exhibited outstanding rate performance (685.6 mAh g-1 at 3C), excellent long-cycling stability with a low capacity decay of only 0.03% per cycle over 1000 cycles at 2C, and a high areal capacity of 5.16 mAh cm-2 under high sulfur loading.	Sulfur	62-68	caspase recruitment domain family member 16	Homo sapiens	48-51
34186386-6	2021	Benefiting from these advantages, the amorphous CoP/HCS-based sulfur electrodes exhibited outstanding rate performance (685.6 mAh g-1 at 3C), excellent long-cycling stability with a low capacity decay of only 0.03% per cycle over 1000 cycles at 2C, and a high areal capacity of 5.16 mAh cm-2 under high sulfur loading.	Sulfur	303-309	caspase recruitment domain family member 16	Homo sapiens	48-51
34533166-0	2021	Tailoring unique neural-network-type carbon nanofibers inserted in CoP/NC polyhedra for robust hydrogen evolution reaction.	Carbon	37-43	caspase recruitment domain family member 16	Homo sapiens	67-70
34677563-1	2021	High-quality CoP nanorings (CoP NRs) are easily achieved using a phosphorating treatment of CoOOH nanorings, and reveal high activity towards the hydrogen evolution reaction and the nitrate electrocatalytic reduction reaction due to substantial coordinately unsaturated active sites, a high surface area, and available mass transfer pathways.	coooh	92-97	caspase recruitment domain family member 16	Homo sapiens	13-16
34677563-1	2021	High-quality CoP nanorings (CoP NRs) are easily achieved using a phosphorating treatment of CoOOH nanorings, and reveal high activity towards the hydrogen evolution reaction and the nitrate electrocatalytic reduction reaction due to substantial coordinately unsaturated active sites, a high surface area, and available mass transfer pathways.	Hydrogen	146-154	caspase recruitment domain family member 16	Homo sapiens	13-16
34677563-1	2021	High-quality CoP nanorings (CoP NRs) are easily achieved using a phosphorating treatment of CoOOH nanorings, and reveal high activity towards the hydrogen evolution reaction and the nitrate electrocatalytic reduction reaction due to substantial coordinately unsaturated active sites, a high surface area, and available mass transfer pathways.	Nitrates	182-189	caspase recruitment domain family member 16	Homo sapiens	13-16
34542276-0	2021	Hierarchical Double-Shelled CoP Nanocages for Efficient Visible-Light-Driven CO2 Reduction.	Carbon Dioxide	77-80	caspase recruitment domain family member 16	Homo sapiens	28-31
34542276-2	2021	Herein, we report the design of novel Fe doped CoP hierarchical double-shelled nanocages (Fe-CoP HDSNC) via a MOF-templated approach for highly efficient visible-light-driven CO2 reduction.	Iron	38-40	caspase recruitment domain family member 16	Homo sapiens	47-50
34542276-2	2021	Herein, we report the design of novel Fe doped CoP hierarchical double-shelled nanocages (Fe-CoP HDSNC) via a MOF-templated approach for highly efficient visible-light-driven CO2 reduction.	Iron	38-40	caspase recruitment domain family member 16	Homo sapiens	93-96
34542276-2	2021	Herein, we report the design of novel Fe doped CoP hierarchical double-shelled nanocages (Fe-CoP HDSNC) via a MOF-templated approach for highly efficient visible-light-driven CO2 reduction.	Carbon Dioxide	175-178	caspase recruitment domain family member 16	Homo sapiens	47-50
34542276-2	2021	Herein, we report the design of novel Fe doped CoP hierarchical double-shelled nanocages (Fe-CoP HDSNC) via a MOF-templated approach for highly efficient visible-light-driven CO2 reduction.	Carbon Dioxide	175-178	caspase recruitment domain family member 16	Homo sapiens	93-96
34542276-5	2021	As expected, the Fe-CoP HDSNC achieves an unprecedented catalytic efficiency in visible-light-driven CO2 reduction with an up to 3.25% apparent quantum yield and 90.3% CO selectivity, superior to most of the state-of-the-art photocatalysts under comparable conditions.	Carbon Dioxide	101-104	caspase recruitment domain family member 16	Homo sapiens	20-23
34584160-5	2021	The use of nanofluids in the evaporator also led to an average reduction of 23.3% in the total work input to the system and improved the COP of the system by 21.8%, 20.8% and 21.6% for Al2O3-TiO2/water, Al2O3/water, and TiO2/water nanofluids, respectively.	titanium dioxide	220-224	caspase recruitment domain family member 16	Homo sapiens	137-140
34584160-6	2021	Finally, an enhancement of 21.6% in COP was recorded for Al2O3-TiO2/EG-water nanofluids at a 5% nanoparticle volume concentration.	Aluminum Oxide	57-62	caspase recruitment domain family member 16	Homo sapiens	36-39
34584160-6	2021	Finally, an enhancement of 21.6% in COP was recorded for Al2O3-TiO2/EG-water nanofluids at a 5% nanoparticle volume concentration.	titanium dioxide	63-67	caspase recruitment domain family member 16	Homo sapiens	36-39
34584160-6	2021	Finally, an enhancement of 21.6% in COP was recorded for Al2O3-TiO2/EG-water nanofluids at a 5% nanoparticle volume concentration.	Water	71-76	caspase recruitment domain family member 16	Homo sapiens	36-39
34533166-0	2021	Tailoring unique neural-network-type carbon nanofibers inserted in CoP/NC polyhedra for robust hydrogen evolution reaction.	polyhedra	74-83	caspase recruitment domain family member 16	Homo sapiens	67-70
34533166-0	2021	Tailoring unique neural-network-type carbon nanofibers inserted in CoP/NC polyhedra for robust hydrogen evolution reaction.	Hydrogen	95-103	caspase recruitment domain family member 16	Homo sapiens	67-70
34533166-2	2021	Herein we designed and tailored a unique three-dimensional cross-linked neural network-like CoP-based composite, that is, carbon nanofibers inserted in CoP/NC polyhedra derived from in situ self-assembled bacterial cellulose (BC) wired ZIF-67 polyhedra via high-temperature carbonization and subsequent phosphorization.	Carbon	122-128	caspase recruitment domain family member 16	Homo sapiens	92-95
34533166-2	2021	Herein we designed and tailored a unique three-dimensional cross-linked neural network-like CoP-based composite, that is, carbon nanofibers inserted in CoP/NC polyhedra derived from in situ self-assembled bacterial cellulose (BC) wired ZIF-67 polyhedra via high-temperature carbonization and subsequent phosphorization.	Carbon	122-128	caspase recruitment domain family member 16	Homo sapiens	152-155
34533166-3	2021	The obtained integrated catalyst (3-D CNF@CoP/NC) consists of CoP/NC polyhedra with abundant active sites as the "neurons" and carbon nanofibers as the "axons", and displayed remarkable activity with an overpotential of 64.5 mV and 105.6 mV at 10 mA cm-2 in 0.5 M H2SO4 and 1 M KOH respectively and good stability with negligible current change after 80 h of chronoamperometric measurement or 4000 CV cycles.	Carbon	127-133	caspase recruitment domain family member 16	Homo sapiens	42-45
34533166-3	2021	The obtained integrated catalyst (3-D CNF@CoP/NC) consists of CoP/NC polyhedra with abundant active sites as the "neurons" and carbon nanofibers as the "axons", and displayed remarkable activity with an overpotential of 64.5 mV and 105.6 mV at 10 mA cm-2 in 0.5 M H2SO4 and 1 M KOH respectively and good stability with negligible current change after 80 h of chronoamperometric measurement or 4000 CV cycles.	sulfuric acid	264-269	caspase recruitment domain family member 16	Homo sapiens	42-45
34533166-3	2021	The obtained integrated catalyst (3-D CNF@CoP/NC) consists of CoP/NC polyhedra with abundant active sites as the "neurons" and carbon nanofibers as the "axons", and displayed remarkable activity with an overpotential of 64.5 mV and 105.6 mV at 10 mA cm-2 in 0.5 M H2SO4 and 1 M KOH respectively and good stability with negligible current change after 80 h of chronoamperometric measurement or 4000 CV cycles.	sulfuric acid	264-269	caspase recruitment domain family member 16	Homo sapiens	62-65
34533166-3	2021	The obtained integrated catalyst (3-D CNF@CoP/NC) consists of CoP/NC polyhedra with abundant active sites as the "neurons" and carbon nanofibers as the "axons", and displayed remarkable activity with an overpotential of 64.5 mV and 105.6 mV at 10 mA cm-2 in 0.5 M H2SO4 and 1 M KOH respectively and good stability with negligible current change after 80 h of chronoamperometric measurement or 4000 CV cycles.	potassium hydroxide	278-281	caspase recruitment domain family member 16	Homo sapiens	42-45
34533166-3	2021	The obtained integrated catalyst (3-D CNF@CoP/NC) consists of CoP/NC polyhedra with abundant active sites as the "neurons" and carbon nanofibers as the "axons", and displayed remarkable activity with an overpotential of 64.5 mV and 105.6 mV at 10 mA cm-2 in 0.5 M H2SO4 and 1 M KOH respectively and good stability with negligible current change after 80 h of chronoamperometric measurement or 4000 CV cycles.	potassium hydroxide	278-281	caspase recruitment domain family member 16	Homo sapiens	62-65
34486841-2	2021	In this study, a F-COP was rapidly synthesized by a simple Schiff-based reaction using 2,3,5,6-tetrafluoroterephthalaldehyde (TFA) and 1,3,5-tris(4-aminophenyl)benzene (TAPB) as monomers, and by adding scandium (III) triflate (Sc(OTf)3) as the metal catalyst at room temperature.	Trifluoroacetic Acid	126-129	caspase recruitment domain family member 16	Homo sapiens	19-22
34576551-1	2021	2,2"-thiobisethanol dimethacrylate/ethylene glycol dimethacrylate copolymer (coP-TEDMA/EGDMA) was used as a sorbent for gold recovery from residual solutions resulting from the electroplating industry.	2,2"-thiobisethanol dimethacrylate	0-34	caspase recruitment domain family member 16	Homo sapiens	77-80
34576551-1	2021	2,2"-thiobisethanol dimethacrylate/ethylene glycol dimethacrylate copolymer (coP-TEDMA/EGDMA) was used as a sorbent for gold recovery from residual solutions resulting from the electroplating industry.	ethylene glycol dimethacrylate copolymer	35-75	caspase recruitment domain family member 16	Homo sapiens	77-80
34576551-1	2021	2,2"-thiobisethanol dimethacrylate/ethylene glycol dimethacrylate copolymer (coP-TEDMA/EGDMA) was used as a sorbent for gold recovery from residual solutions resulting from the electroplating industry.	ethylene dimethacrylate	87-92	caspase recruitment domain family member 16	Homo sapiens	77-80
34519748-0	2021	Facile synthesis of Fe-doped CoP nanosheet arrays wrapped by graphene for overall water splitting.	Iron	20-22	caspase recruitment domain family member 16	Homo sapiens	29-32
34519748-0	2021	Facile synthesis of Fe-doped CoP nanosheet arrays wrapped by graphene for overall water splitting.	Graphite	61-69	caspase recruitment domain family member 16	Homo sapiens	29-32
34519748-0	2021	Facile synthesis of Fe-doped CoP nanosheet arrays wrapped by graphene for overall water splitting.	Water	82-87	caspase recruitment domain family member 16	Homo sapiens	29-32
34519748-2	2021	This study proposes an effective strategy for the construction of Fe doped CoP nanosheet arrays wrapped by graphene (F0.25CP-G) on nickel foam as an efficient electrocatalyst for the hydrogen evolution reaction (HER) and the oxygen evolution reaction (OER).	Iron	66-68	caspase recruitment domain family member 16	Homo sapiens	75-78
34519748-2	2021	This study proposes an effective strategy for the construction of Fe doped CoP nanosheet arrays wrapped by graphene (F0.25CP-G) on nickel foam as an efficient electrocatalyst for the hydrogen evolution reaction (HER) and the oxygen evolution reaction (OER).	Graphite	107-115	caspase recruitment domain family member 16	Homo sapiens	75-78
34519748-2	2021	This study proposes an effective strategy for the construction of Fe doped CoP nanosheet arrays wrapped by graphene (F0.25CP-G) on nickel foam as an efficient electrocatalyst for the hydrogen evolution reaction (HER) and the oxygen evolution reaction (OER).	Nickel	131-137	caspase recruitment domain family member 16	Homo sapiens	75-78
34519748-2	2021	This study proposes an effective strategy for the construction of Fe doped CoP nanosheet arrays wrapped by graphene (F0.25CP-G) on nickel foam as an efficient electrocatalyst for the hydrogen evolution reaction (HER) and the oxygen evolution reaction (OER).	Hydrogen	183-191	caspase recruitment domain family member 16	Homo sapiens	75-78
34519748-2	2021	This study proposes an effective strategy for the construction of Fe doped CoP nanosheet arrays wrapped by graphene (F0.25CP-G) on nickel foam as an efficient electrocatalyst for the hydrogen evolution reaction (HER) and the oxygen evolution reaction (OER).	Oxygen	225-231	caspase recruitment domain family member 16	Homo sapiens	75-78
34486841-2	2021	In this study, a F-COP was rapidly synthesized by a simple Schiff-based reaction using 2,3,5,6-tetrafluoroterephthalaldehyde (TFA) and 1,3,5-tris(4-aminophenyl)benzene (TAPB) as monomers, and by adding scandium (III) triflate (Sc(OTf)3) as the metal catalyst at room temperature.	1,3,5-tri(4-aminophenyl)benzene	135-167	caspase recruitment domain family member 16	Homo sapiens	19-22
34486841-2	2021	In this study, a F-COP was rapidly synthesized by a simple Schiff-based reaction using 2,3,5,6-tetrafluoroterephthalaldehyde (TFA) and 1,3,5-tris(4-aminophenyl)benzene (TAPB) as monomers, and by adding scandium (III) triflate (Sc(OTf)3) as the metal catalyst at room temperature.	1,3,5-tri(4-aminophenyl)benzene	169-173	caspase recruitment domain family member 16	Homo sapiens	19-22
34486841-2	2021	In this study, a F-COP was rapidly synthesized by a simple Schiff-based reaction using 2,3,5,6-tetrafluoroterephthalaldehyde (TFA) and 1,3,5-tris(4-aminophenyl)benzene (TAPB) as monomers, and by adding scandium (III) triflate (Sc(OTf)3) as the metal catalyst at room temperature.	scandium triflate	202-225	caspase recruitment domain family member 16	Homo sapiens	19-22
34486841-2	2021	In this study, a F-COP was rapidly synthesized by a simple Schiff-based reaction using 2,3,5,6-tetrafluoroterephthalaldehyde (TFA) and 1,3,5-tris(4-aminophenyl)benzene (TAPB) as monomers, and by adding scandium (III) triflate (Sc(OTf)3) as the metal catalyst at room temperature.	scandium triflate	227-235	caspase recruitment domain family member 16	Homo sapiens	19-22
34486841-2	2021	In this study, a F-COP was rapidly synthesized by a simple Schiff-based reaction using 2,3,5,6-tetrafluoroterephthalaldehyde (TFA) and 1,3,5-tris(4-aminophenyl)benzene (TAPB) as monomers, and by adding scandium (III) triflate (Sc(OTf)3) as the metal catalyst at room temperature.	Metals	244-249	caspase recruitment domain family member 16	Homo sapiens	19-22
34486841-3	2021	The prepared F-COP was applied as a coating adsorbent for solid phase microextraction (SPME) to enrich three kinds of eugenol anesthetics in aquatic products.	Eugenol	118-125	caspase recruitment domain family member 16	Homo sapiens	15-18
34486841-5	2021	This F-COP adsorbent with rich pi-stacking electrons contained abundant phenyl rings and imine (-C=N) groups throughout the molecular framework.	Imines	89-94	caspase recruitment domain family member 16	Homo sapiens	7-10
34486841-5	2021	This F-COP adsorbent with rich pi-stacking electrons contained abundant phenyl rings and imine (-C=N) groups throughout the molecular framework.	Nitrogen	99-100	caspase recruitment domain family member 16	Homo sapiens	7-10
34486841-7	2021	The F-COP was characterized by Fourier transform infrared (FT-IR) spectroscopy, X-ray diffraction (XRD), nitrogen adsorption-desorption isotherms, and scanning electron microscopy (SEM).	Nitrogen	105-113	caspase recruitment domain family member 16	Homo sapiens	6-9
34486841-15	2021	Thus, the optimized F-COP-SPME bar conditions were established as follows: extraction time: 30 min; stirring rate: 700 r/min; desorption solvent: acetonitrile; desorption time: 10 min.	acetonitrile	146-158	caspase recruitment domain family member 16	Homo sapiens	22-25
34486841-16	2021	By combining F-COP-based SPME with HPLC-UV analysis, an effective method was developed for the extraction and determination of eugenol, eugenyl acetate, and methyl eugenol residues in aquatic products.	Eugenol	127-134	caspase recruitment domain family member 16	Homo sapiens	15-18
34486841-16	2021	By combining F-COP-based SPME with HPLC-UV analysis, an effective method was developed for the extraction and determination of eugenol, eugenyl acetate, and methyl eugenol residues in aquatic products.	acetyleugenol	136-151	caspase recruitment domain family member 16	Homo sapiens	15-18
34486841-16	2021	By combining F-COP-based SPME with HPLC-UV analysis, an effective method was developed for the extraction and determination of eugenol, eugenyl acetate, and methyl eugenol residues in aquatic products.	methyleugenol	157-171	caspase recruitment domain family member 16	Homo sapiens	15-18
34486841-20	2021	These results demonstrated that the F-COP is promising for use as an adsorbent in SPME for the determination of eugenol anesthetics in aquatic products.	Eugenol	112-119	caspase recruitment domain family member 16	Homo sapiens	38-41
34171644-0	2021	Electrocatalytic deep dehalogenation of florfenicol using Fe-doped CoP nanotubes array for blocking resistance gene expression and microbial inhibition during biochemical treatment.	florfenicol	40-51	caspase recruitment domain family member 16	Homo sapiens	67-70
34492829-0	2021	N-doped graphitic C3N4 nanosheets decorated with CoP nanoparticles: A highly efficient activator in singlet oxygen dominated visible-light-driven peroxymonosulfate activation for degradation of pharmaceuticals and personal care products.	n-doped graphitic c3n4	0-22	caspase recruitment domain family member 16	Homo sapiens	49-52
34492829-0	2021	N-doped graphitic C3N4 nanosheets decorated with CoP nanoparticles: A highly efficient activator in singlet oxygen dominated visible-light-driven peroxymonosulfate activation for degradation of pharmaceuticals and personal care products.	Singlet Oxygen	100-114	caspase recruitment domain family member 16	Homo sapiens	49-52
34492829-0	2021	N-doped graphitic C3N4 nanosheets decorated with CoP nanoparticles: A highly efficient activator in singlet oxygen dominated visible-light-driven peroxymonosulfate activation for degradation of pharmaceuticals and personal care products.	peroxymonosulfate	146-163	caspase recruitment domain family member 16	Homo sapiens	49-52
34492829-1	2021	CoP nanoparticle-loaded N-doped graphitic C3N4 nanosheets (CoP/N-g-C3N4) were fabricated via a facile three-step method to degrade pharmaceuticals and personal care products (PPCPs) via a visible-light-driven (VLD) peroxymonosulfate (PMS) activation system.	n-doped	24-31	caspase recruitment domain family member 16	Homo sapiens	0-3
34492829-1	2021	CoP nanoparticle-loaded N-doped graphitic C3N4 nanosheets (CoP/N-g-C3N4) were fabricated via a facile three-step method to degrade pharmaceuticals and personal care products (PPCPs) via a visible-light-driven (VLD) peroxymonosulfate (PMS) activation system.	n-doped	24-31	caspase recruitment domain family member 16	Homo sapiens	59-62
34492829-1	2021	CoP nanoparticle-loaded N-doped graphitic C3N4 nanosheets (CoP/N-g-C3N4) were fabricated via a facile three-step method to degrade pharmaceuticals and personal care products (PPCPs) via a visible-light-driven (VLD) peroxymonosulfate (PMS) activation system.	peroxymonosulfate	215-232	caspase recruitment domain family member 16	Homo sapiens	0-3
34492829-1	2021	CoP nanoparticle-loaded N-doped graphitic C3N4 nanosheets (CoP/N-g-C3N4) were fabricated via a facile three-step method to degrade pharmaceuticals and personal care products (PPCPs) via a visible-light-driven (VLD) peroxymonosulfate (PMS) activation system.	peroxymonosulfate	215-232	caspase recruitment domain family member 16	Homo sapiens	59-62
34492829-1	2021	CoP nanoparticle-loaded N-doped graphitic C3N4 nanosheets (CoP/N-g-C3N4) were fabricated via a facile three-step method to degrade pharmaceuticals and personal care products (PPCPs) via a visible-light-driven (VLD) peroxymonosulfate (PMS) activation system.	peroxymonosulfate	234-237	caspase recruitment domain family member 16	Homo sapiens	0-3
34492829-1	2021	CoP nanoparticle-loaded N-doped graphitic C3N4 nanosheets (CoP/N-g-C3N4) were fabricated via a facile three-step method to degrade pharmaceuticals and personal care products (PPCPs) via a visible-light-driven (VLD) peroxymonosulfate (PMS) activation system.	peroxymonosulfate	234-237	caspase recruitment domain family member 16	Homo sapiens	59-62
34492829-4	2021	Subsequently, the Density Functional Theory (DFT) explained that CoP showed preference to bonding with the nitrogen atoms involved in the newly formed N N bond, and the Co-N bond dramatically enhanced the transfer of photo-generated electrons from the N-g-C3N4 nanosheets.	Nitrogen	107-115	caspase recruitment domain family member 16	Homo sapiens	65-68
34492829-4	2021	Subsequently, the Density Functional Theory (DFT) explained that CoP showed preference to bonding with the nitrogen atoms involved in the newly formed N N bond, and the Co-N bond dramatically enhanced the transfer of photo-generated electrons from the N-g-C3N4 nanosheets.	Nitrogen	252-253	caspase recruitment domain family member 16	Homo sapiens	65-68
34386923-9	2021	The results showed that the COP of HFO mixtures decreased by 4-20% compared to R134a.	1,3,3,3-tetrafluoropropene	35-38	caspase recruitment domain family member 16	Homo sapiens	28-31
34171644-0	2021	Electrocatalytic deep dehalogenation of florfenicol using Fe-doped CoP nanotubes array for blocking resistance gene expression and microbial inhibition during biochemical treatment.	fe-doped	58-66	caspase recruitment domain family member 16	Homo sapiens	67-70
34171644-3	2021	Herein, a novel electrocatalyst of Fe-doped CoP nanotubes array on nickel foam (Fe-CoP NTs/NiF) is prepared through a simple ultrasonication of Fe-doped CoP nanowires hydrothermally grown on NiF.	Iron	35-37	caspase recruitment domain family member 16	Homo sapiens	44-47
34171644-3	2021	Herein, a novel electrocatalyst of Fe-doped CoP nanotubes array on nickel foam (Fe-CoP NTs/NiF) is prepared through a simple ultrasonication of Fe-doped CoP nanowires hydrothermally grown on NiF.	Iron	35-37	caspase recruitment domain family member 16	Homo sapiens	83-86
34171644-3	2021	Herein, a novel electrocatalyst of Fe-doped CoP nanotubes array on nickel foam (Fe-CoP NTs/NiF) is prepared through a simple ultrasonication of Fe-doped CoP nanowires hydrothermally grown on NiF.	Iron	35-37	caspase recruitment domain family member 16	Homo sapiens	153-156
34171644-3	2021	Herein, a novel electrocatalyst of Fe-doped CoP nanotubes array on nickel foam (Fe-CoP NTs/NiF) is prepared through a simple ultrasonication of Fe-doped CoP nanowires hydrothermally grown on NiF.	Nickel	67-73	caspase recruitment domain family member 16	Homo sapiens	44-47
34171644-3	2021	Herein, a novel electrocatalyst of Fe-doped CoP nanotubes array on nickel foam (Fe-CoP NTs/NiF) is prepared through a simple ultrasonication of Fe-doped CoP nanowires hydrothermally grown on NiF.	Nickel	67-73	caspase recruitment domain family member 16	Homo sapiens	83-86
34171644-3	2021	Herein, a novel electrocatalyst of Fe-doped CoP nanotubes array on nickel foam (Fe-CoP NTs/NiF) is prepared through a simple ultrasonication of Fe-doped CoP nanowires hydrothermally grown on NiF.	Nickel	67-73	caspase recruitment domain family member 16	Homo sapiens	153-156
34171644-3	2021	Herein, a novel electrocatalyst of Fe-doped CoP nanotubes array on nickel foam (Fe-CoP NTs/NiF) is prepared through a simple ultrasonication of Fe-doped CoP nanowires hydrothermally grown on NiF.	Iron	80-82	caspase recruitment domain family member 16	Homo sapiens	44-47
34171644-3	2021	Herein, a novel electrocatalyst of Fe-doped CoP nanotubes array on nickel foam (Fe-CoP NTs/NiF) is prepared through a simple ultrasonication of Fe-doped CoP nanowires hydrothermally grown on NiF.	Iron	80-82	caspase recruitment domain family member 16	Homo sapiens	83-86
34260216-3	2021	The cathodic PEC biosensor is constructed by the in situ growth of p-type COP films onto a glass coated with indium tin oxide and the subsequent assembly of biotin- and HS-labeled double-stranded DNA (dsDNA) probes onto the COP film via biotin-streptavidin interaction.	indium tin oxide	109-125	caspase recruitment domain family member 16	Homo sapiens	74-77
34260216-3	2021	The cathodic PEC biosensor is constructed by the in situ growth of p-type COP films onto a glass coated with indium tin oxide and the subsequent assembly of biotin- and HS-labeled double-stranded DNA (dsDNA) probes onto the COP film via biotin-streptavidin interaction.	Biotin	157-163	caspase recruitment domain family member 16	Homo sapiens	224-227
34260216-3	2021	The cathodic PEC biosensor is constructed by the in situ growth of p-type COP films onto a glass coated with indium tin oxide and the subsequent assembly of biotin- and HS-labeled double-stranded DNA (dsDNA) probes onto the COP film via biotin-streptavidin interaction.	Biotin	237-243	caspase recruitment domain family member 16	Homo sapiens	224-227
34927988-0	2021	Hierarchically Assembling CoFe Prussian Blue Analogue Nanocubes on CoP Nanosheets as Highly Efficient Electrocatalysts for Overall Water Splitting.	Water	131-136	caspase recruitment domain family member 16	Homo sapiens	67-70
34117841-0	2021	Cr-Doped CoP Nanorod Arrays as High-Performance Hydrogen Evolution Reaction Catalysts at High Current Density.	Chromium	0-2	caspase recruitment domain family member 16	Homo sapiens	9-12
34927988-3	2021	Benefitting from the heterostructured engineering, the as-synthesized CoFe PBA@CoP presents remarkable electrocatalytic performance in 1.0 m KOH, only requiring overpotentials of 100 mV for hydrogen evolution reaction (HER) and 171 mV for oxygen evolution reaction (OER) to reach the 10 mA cm-2 current density with good stability.	potassium hydroxide	141-144	caspase recruitment domain family member 16	Homo sapiens	79-82
34117841-0	2021	Cr-Doped CoP Nanorod Arrays as High-Performance Hydrogen Evolution Reaction Catalysts at High Current Density.	Hydrogen	48-56	caspase recruitment domain family member 16	Homo sapiens	9-12
34927988-3	2021	Benefitting from the heterostructured engineering, the as-synthesized CoFe PBA@CoP presents remarkable electrocatalytic performance in 1.0 m KOH, only requiring overpotentials of 100 mV for hydrogen evolution reaction (HER) and 171 mV for oxygen evolution reaction (OER) to reach the 10 mA cm-2 current density with good stability.	Hydrogen	190-198	caspase recruitment domain family member 16	Homo sapiens	79-82
34117841-2	2021	Herein, the Cr-doped CoP nanorod arrays on carbon cloth (Cr-CoP-NR/CC) is reported as high performance HER catalysts with overpotentials of 38 and 209 mV at the HER current densities of 10 and 500 mA cm-2 , respectively, outperforming the performance of the commercial Pt/C at high current density.	Carbon	43-49	caspase recruitment domain family member 16	Homo sapiens	21-24
34117841-2	2021	Herein, the Cr-doped CoP nanorod arrays on carbon cloth (Cr-CoP-NR/CC) is reported as high performance HER catalysts with overpotentials of 38 and 209 mV at the HER current densities of 10 and 500 mA cm-2 , respectively, outperforming the performance of the commercial Pt/C at high current density.	Carbon	43-49	caspase recruitment domain family member 16	Homo sapiens	60-63
34117841-4	2021	The high performance is attributed to the Cr doping, which optimizes the hydrogen binding energy of CoP and prevents its oxidation.	Chromium	42-44	caspase recruitment domain family member 16	Homo sapiens	100-103
34117841-4	2021	The high performance is attributed to the Cr doping, which optimizes the hydrogen binding energy of CoP and prevents its oxidation.	Hydrogen	73-81	caspase recruitment domain family member 16	Homo sapiens	100-103
34117841-6	2021	The obtained Cr-CoP-NR/CC catalyst shows the potential to replace the costly Pt-based HER catalysts in the water electrolyzer.	Platinum	77-79	caspase recruitment domain family member 16	Homo sapiens	16-19
34927988-3	2021	Benefitting from the heterostructured engineering, the as-synthesized CoFe PBA@CoP presents remarkable electrocatalytic performance in 1.0 m KOH, only requiring overpotentials of 100 mV for hydrogen evolution reaction (HER) and 171 mV for oxygen evolution reaction (OER) to reach the 10 mA cm-2 current density with good stability.	Oxygen	239-245	caspase recruitment domain family member 16	Homo sapiens	79-82
34117841-6	2021	The obtained Cr-CoP-NR/CC catalyst shows the potential to replace the costly Pt-based HER catalysts in the water electrolyzer.	Water	107-112	caspase recruitment domain family member 16	Homo sapiens	16-19
35398761-0	2022	F, N neutralizing effect induced Co-P-O cleaving endows CoP nanosheets with superior HER and OER performances.	co-p-o	33-39	caspase recruitment domain family member 16	Homo sapiens	56-59
34132907-0	2021	Au nanoparticle plasmon-enhanced electrochemiluminescence aptasensor based on the 1D/2D PTCA/CoP for diclofenac assay.	Gold	0-2	caspase recruitment domain family member 16	Homo sapiens	93-96
34132907-0	2021	Au nanoparticle plasmon-enhanced electrochemiluminescence aptasensor based on the 1D/2D PTCA/CoP for diclofenac assay.	Diclofenac	101-111	caspase recruitment domain family member 16	Homo sapiens	93-96
34132907-2	2021	In this work, an ECL aptasensor with 3,4,9,10-perylenetetracarboxylic acid-decorated cobalt phosphate (denoted as PTCA/CoP) as the ECL emitter and Au nanoparticles (NPs) as plasma was proposed for diclofenac assay.	3,4,9,10-perylene tetracarboxylic acid	37-74	caspase recruitment domain family member 16	Homo sapiens	119-122
34132907-2	2021	In this work, an ECL aptasensor with 3,4,9,10-perylenetetracarboxylic acid-decorated cobalt phosphate (denoted as PTCA/CoP) as the ECL emitter and Au nanoparticles (NPs) as plasma was proposed for diclofenac assay.	Cobalt(II) phosphate	85-101	caspase recruitment domain family member 16	Homo sapiens	119-122
34132907-4	2021	The diclofenac aptamer acted as a bridge to link the PTCA/CoP and Au NPs; thus, the ECL performance of PTCA/CoP was greatly improved due to the plasma effect of Au NPs.	Diclofenac	4-14	caspase recruitment domain family member 16	Homo sapiens	58-61
34132907-4	2021	The diclofenac aptamer acted as a bridge to link the PTCA/CoP and Au NPs; thus, the ECL performance of PTCA/CoP was greatly improved due to the plasma effect of Au NPs.	Diclofenac	4-14	caspase recruitment domain family member 16	Homo sapiens	108-111
34070770-0	2021	Hollow CoP/FeP4 Heterostructural Nanorods Interwoven by CNT as a Highly Efficient Electrocatalyst for Oxygen Evolution Reactions.	Oxygen	102-108	caspase recruitment domain family member 16	Homo sapiens	7-10
34070770-3	2021	To address this issue, we designed and synthesized hollow CoP/FeP4 heterostructural nanorods interwoven by carbon nanotubes (CoP/FeP4@CNT) via a hydrothermal reaction and a phosphorization process.	Carbon	107-113	caspase recruitment domain family member 16	Homo sapiens	58-61
34070770-3	2021	To address this issue, we designed and synthesized hollow CoP/FeP4 heterostructural nanorods interwoven by carbon nanotubes (CoP/FeP4@CNT) via a hydrothermal reaction and a phosphorization process.	Carbon	107-113	caspase recruitment domain family member 16	Homo sapiens	125-128
34171644-3	2021	Herein, a novel electrocatalyst of Fe-doped CoP nanotubes array on nickel foam (Fe-CoP NTs/NiF) is prepared through a simple ultrasonication of Fe-doped CoP nanowires hydrothermally grown on NiF.	Iron	80-82	caspase recruitment domain family member 16	Homo sapiens	153-156
34171644-3	2021	Herein, a novel electrocatalyst of Fe-doped CoP nanotubes array on nickel foam (Fe-CoP NTs/NiF) is prepared through a simple ultrasonication of Fe-doped CoP nanowires hydrothermally grown on NiF.	Iron	144-146	caspase recruitment domain family member 16	Homo sapiens	44-47
34171644-3	2021	Herein, a novel electrocatalyst of Fe-doped CoP nanotubes array on nickel foam (Fe-CoP NTs/NiF) is prepared through a simple ultrasonication of Fe-doped CoP nanowires hydrothermally grown on NiF.	Iron	144-146	caspase recruitment domain family member 16	Homo sapiens	83-86
34171644-3	2021	Herein, a novel electrocatalyst of Fe-doped CoP nanotubes array on nickel foam (Fe-CoP NTs/NiF) is prepared through a simple ultrasonication of Fe-doped CoP nanowires hydrothermally grown on NiF.	Iron	144-146	caspase recruitment domain family member 16	Homo sapiens	153-156
34171644-4	2021	The transformation from nanowires to nanotubes improves the crystallinity of CoP and fully exposes active sites, producing energetic atomic hydrogen for dehalogenation.	Hydrogen	140-148	caspase recruitment domain family member 16	Homo sapiens	77-80
34171644-5	2021	Fe-CoP NTs/NiF exhibits a superior dehalogenation performance towards refractory florfenicol (FLO), achieving 100% removal within 20 min (-1.2 V vs Ag/AgCl, C0 = 20 mg L-1).	florfenicol	81-92	caspase recruitment domain family member 16	Homo sapiens	3-6
34171644-5	2021	Fe-CoP NTs/NiF exhibits a superior dehalogenation performance towards refractory florfenicol (FLO), achieving 100% removal within 20 min (-1.2 V vs Ag/AgCl, C0 = 20 mg L-1).	florfenicol	94-97	caspase recruitment domain family member 16	Homo sapiens	3-6
34171644-5	2021	Fe-CoP NTs/NiF exhibits a superior dehalogenation performance towards refractory florfenicol (FLO), achieving 100% removal within 20 min (-1.2 V vs Ag/AgCl, C0 = 20 mg L-1).	silver chloride	151-155	caspase recruitment domain family member 16	Homo sapiens	3-6
34171644-5	2021	Fe-CoP NTs/NiF exhibits a superior dehalogenation performance towards refractory florfenicol (FLO), achieving 100% removal within 20 min (-1.2 V vs Ag/AgCl, C0 = 20 mg L-1).	c0	157-159	caspase recruitment domain family member 16	Homo sapiens	3-6
35595358-0	2022	A two-dimensional G-CoP/N,P-co-doped carbon nanowire electrode for the simultaneous determination of hydroquinone and catechol in domestic wastewater.	hydroquinone	101-113	caspase recruitment domain family member 16	Homo sapiens	20-23
35595358-0	2022	A two-dimensional G-CoP/N,P-co-doped carbon nanowire electrode for the simultaneous determination of hydroquinone and catechol in domestic wastewater.	catechol	118-126	caspase recruitment domain family member 16	Homo sapiens	20-23
35595358-3	2022	In the present work, we report a facile strategy to obtain nitrogen and phosphorous co-doped glucose-derived carbon coated CoP nanowires (G-CoP/N,P-C NWs), in which nitrilotriacetic acid (NTA) was as the chelating reagent, glucose was as carbon source, and the precursors were subsequently experienced carbonization and phosphorization process.	Nitrogen	59-67	caspase recruitment domain family member 16	Homo sapiens	123-126
35595358-3	2022	In the present work, we report a facile strategy to obtain nitrogen and phosphorous co-doped glucose-derived carbon coated CoP nanowires (G-CoP/N,P-C NWs), in which nitrilotriacetic acid (NTA) was as the chelating reagent, glucose was as carbon source, and the precursors were subsequently experienced carbonization and phosphorization process.	Nitrogen	59-67	caspase recruitment domain family member 16	Homo sapiens	140-143
35595358-3	2022	In the present work, we report a facile strategy to obtain nitrogen and phosphorous co-doped glucose-derived carbon coated CoP nanowires (G-CoP/N,P-C NWs), in which nitrilotriacetic acid (NTA) was as the chelating reagent, glucose was as carbon source, and the precursors were subsequently experienced carbonization and phosphorization process.	Phosphinidene	72-83	caspase recruitment domain family member 16	Homo sapiens	123-126
35595358-3	2022	In the present work, we report a facile strategy to obtain nitrogen and phosphorous co-doped glucose-derived carbon coated CoP nanowires (G-CoP/N,P-C NWs), in which nitrilotriacetic acid (NTA) was as the chelating reagent, glucose was as carbon source, and the precursors were subsequently experienced carbonization and phosphorization process.	Phosphinidene	72-83	caspase recruitment domain family member 16	Homo sapiens	140-143
35595358-3	2022	In the present work, we report a facile strategy to obtain nitrogen and phosphorous co-doped glucose-derived carbon coated CoP nanowires (G-CoP/N,P-C NWs), in which nitrilotriacetic acid (NTA) was as the chelating reagent, glucose was as carbon source, and the precursors were subsequently experienced carbonization and phosphorization process.	Glucose	93-100	caspase recruitment domain family member 16	Homo sapiens	123-126
35595358-3	2022	In the present work, we report a facile strategy to obtain nitrogen and phosphorous co-doped glucose-derived carbon coated CoP nanowires (G-CoP/N,P-C NWs), in which nitrilotriacetic acid (NTA) was as the chelating reagent, glucose was as carbon source, and the precursors were subsequently experienced carbonization and phosphorization process.	Glucose	93-100	caspase recruitment domain family member 16	Homo sapiens	140-143
35595358-3	2022	In the present work, we report a facile strategy to obtain nitrogen and phosphorous co-doped glucose-derived carbon coated CoP nanowires (G-CoP/N,P-C NWs), in which nitrilotriacetic acid (NTA) was as the chelating reagent, glucose was as carbon source, and the precursors were subsequently experienced carbonization and phosphorization process.	Carbon	109-115	caspase recruitment domain family member 16	Homo sapiens	123-126
35595358-3	2022	In the present work, we report a facile strategy to obtain nitrogen and phosphorous co-doped glucose-derived carbon coated CoP nanowires (G-CoP/N,P-C NWs), in which nitrilotriacetic acid (NTA) was as the chelating reagent, glucose was as carbon source, and the precursors were subsequently experienced carbonization and phosphorization process.	Carbon	109-115	caspase recruitment domain family member 16	Homo sapiens	140-143
35595358-3	2022	In the present work, we report a facile strategy to obtain nitrogen and phosphorous co-doped glucose-derived carbon coated CoP nanowires (G-CoP/N,P-C NWs), in which nitrilotriacetic acid (NTA) was as the chelating reagent, glucose was as carbon source, and the precursors were subsequently experienced carbonization and phosphorization process.	Nitrilotriacetic Acid	165-186	caspase recruitment domain family member 16	Homo sapiens	123-126
35595358-3	2022	In the present work, we report a facile strategy to obtain nitrogen and phosphorous co-doped glucose-derived carbon coated CoP nanowires (G-CoP/N,P-C NWs), in which nitrilotriacetic acid (NTA) was as the chelating reagent, glucose was as carbon source, and the precursors were subsequently experienced carbonization and phosphorization process.	Nitrilotriacetic Acid	165-186	caspase recruitment domain family member 16	Homo sapiens	140-143
35595358-3	2022	In the present work, we report a facile strategy to obtain nitrogen and phosphorous co-doped glucose-derived carbon coated CoP nanowires (G-CoP/N,P-C NWs), in which nitrilotriacetic acid (NTA) was as the chelating reagent, glucose was as carbon source, and the precursors were subsequently experienced carbonization and phosphorization process.	Nitrilotriacetic Acid	188-191	caspase recruitment domain family member 16	Homo sapiens	123-126
35595358-3	2022	In the present work, we report a facile strategy to obtain nitrogen and phosphorous co-doped glucose-derived carbon coated CoP nanowires (G-CoP/N,P-C NWs), in which nitrilotriacetic acid (NTA) was as the chelating reagent, glucose was as carbon source, and the precursors were subsequently experienced carbonization and phosphorization process.	Nitrilotriacetic Acid	188-191	caspase recruitment domain family member 16	Homo sapiens	140-143
35595358-3	2022	In the present work, we report a facile strategy to obtain nitrogen and phosphorous co-doped glucose-derived carbon coated CoP nanowires (G-CoP/N,P-C NWs), in which nitrilotriacetic acid (NTA) was as the chelating reagent, glucose was as carbon source, and the precursors were subsequently experienced carbonization and phosphorization process.	Glucose	223-230	caspase recruitment domain family member 16	Homo sapiens	123-126
35595358-3	2022	In the present work, we report a facile strategy to obtain nitrogen and phosphorous co-doped glucose-derived carbon coated CoP nanowires (G-CoP/N,P-C NWs), in which nitrilotriacetic acid (NTA) was as the chelating reagent, glucose was as carbon source, and the precursors were subsequently experienced carbonization and phosphorization process.	Glucose	223-230	caspase recruitment domain family member 16	Homo sapiens	140-143
35595358-3	2022	In the present work, we report a facile strategy to obtain nitrogen and phosphorous co-doped glucose-derived carbon coated CoP nanowires (G-CoP/N,P-C NWs), in which nitrilotriacetic acid (NTA) was as the chelating reagent, glucose was as carbon source, and the precursors were subsequently experienced carbonization and phosphorization process.	Carbon	238-244	caspase recruitment domain family member 16	Homo sapiens	123-126
35595358-3	2022	In the present work, we report a facile strategy to obtain nitrogen and phosphorous co-doped glucose-derived carbon coated CoP nanowires (G-CoP/N,P-C NWs), in which nitrilotriacetic acid (NTA) was as the chelating reagent, glucose was as carbon source, and the precursors were subsequently experienced carbonization and phosphorization process.	Carbon	238-244	caspase recruitment domain family member 16	Homo sapiens	140-143
35610201-7	2022	The activated beta-catenin translocated into the nucleus and promoted the transcription of APELA and CARD16, which were found to be responsible for the repression of cAMP-induced differentiation in GSCs.	Cyclic AMP	166-170	caspase recruitment domain family member 16	Homo sapiens	101-107
35150954-5	2022	Under the optimal atom ratio of Co and Mo (6:5), CoP 5CoMoP NC catalysts can deliver a current density of 10 mA cm-2 at the overpotential of 72 mV with a Tafel slope of 60.3 mV dec-1 in 1.0 M KOH solution.	Cobalt	32-34	caspase recruitment domain family member 16	Homo sapiens	49-52
35150954-5	2022	Under the optimal atom ratio of Co and Mo (6:5), CoP 5CoMoP NC catalysts can deliver a current density of 10 mA cm-2 at the overpotential of 72 mV with a Tafel slope of 60.3 mV dec-1 in 1.0 M KOH solution.	potassium hydroxide	192-195	caspase recruitment domain family member 16	Homo sapiens	49-52
35150954-9	2022	The 3D CoP 5CoMoP heterostructured catalysts hold promise as efficient and low-cost catalysts for water splitting devices over a wide pH range.	Water	98-103	caspase recruitment domain family member 16	Homo sapiens	7-10
35612000-3	2022	Herein, through a simple solvothermal synthesis method, TpPa-1-COF, a typical 2D COF, which displays a wide light absorption region, is rationally combined with transition metal phosphides (TMPs) to fabricate three TMPs/TpPa-1-COF hybrid materials, named Ni12 P5 (Ni2 P or CoP)/TpPa-1-COF.	tppa-1-cof	56-66	caspase recruitment domain family member 16	Homo sapiens	273-276
35612000-3	2022	Herein, through a simple solvothermal synthesis method, TpPa-1-COF, a typical 2D COF, which displays a wide light absorption region, is rationally combined with transition metal phosphides (TMPs) to fabricate three TMPs/TpPa-1-COF hybrid materials, named Ni12 P5 (Ni2 P or CoP)/TpPa-1-COF.	metal phosphides	172-188	caspase recruitment domain family member 16	Homo sapiens	273-276
35612000-3	2022	Herein, through a simple solvothermal synthesis method, TpPa-1-COF, a typical 2D COF, which displays a wide light absorption region, is rationally combined with transition metal phosphides (TMPs) to fabricate three TMPs/TpPa-1-COF hybrid materials, named Ni12 P5 (Ni2 P or CoP)/TpPa-1-COF.	tmps	190-194	caspase recruitment domain family member 16	Homo sapiens	273-276
35612000-3	2022	Herein, through a simple solvothermal synthesis method, TpPa-1-COF, a typical 2D COF, which displays a wide light absorption region, is rationally combined with transition metal phosphides (TMPs) to fabricate three TMPs/TpPa-1-COF hybrid materials, named Ni12 P5 (Ni2 P or CoP)/TpPa-1-COF.	ni2 p	264-269	caspase recruitment domain family member 16	Homo sapiens	273-276
35612000-3	2022	Herein, through a simple solvothermal synthesis method, TpPa-1-COF, a typical 2D COF, which displays a wide light absorption region, is rationally combined with transition metal phosphides (TMPs) to fabricate three TMPs/TpPa-1-COF hybrid materials, named Ni12 P5 (Ni2 P or CoP)/TpPa-1-COF.	triphenyl phosphate	278-282	caspase recruitment domain family member 16	Homo sapiens	273-276
35636290-0	2022	Molten salt-induced vertical CoP/Co nanosheets array coupled with carbon for efficient water splitting.	Salts	7-11	caspase recruitment domain family member 16	Homo sapiens	29-32
35636290-0	2022	Molten salt-induced vertical CoP/Co nanosheets array coupled with carbon for efficient water splitting.	Carbon	66-72	caspase recruitment domain family member 16	Homo sapiens	29-32
35636290-0	2022	Molten salt-induced vertical CoP/Co nanosheets array coupled with carbon for efficient water splitting.	Water	87-92	caspase recruitment domain family member 16	Homo sapiens	29-32
35636290-2	2022	Herein, a facile heterogeneous molten salt strategy has been proposed to fabricate CoP/Co nanosheets array that is vertically attached to a carbon matrix.	Salts	38-42	caspase recruitment domain family member 16	Homo sapiens	83-86
35636290-2	2022	Herein, a facile heterogeneous molten salt strategy has been proposed to fabricate CoP/Co nanosheets array that is vertically attached to a carbon matrix.	Carbon	140-146	caspase recruitment domain family member 16	Homo sapiens	83-86
35636290-5	2022	After optimization of the molten salt mass, the CoP/Co/C-6 shows the best bifunctional performance, requiring an overpotential of 132 mV and 320 mV at 10 mA cm-2 for hydrogen evolution reaction and oxygen evolution reaction, respectively.	Hydrogen	166-174	caspase recruitment domain family member 16	Homo sapiens	48-51
35636290-5	2022	After optimization of the molten salt mass, the CoP/Co/C-6 shows the best bifunctional performance, requiring an overpotential of 132 mV and 320 mV at 10 mA cm-2 for hydrogen evolution reaction and oxygen evolution reaction, respectively.	Oxygen	198-204	caspase recruitment domain family member 16	Homo sapiens	48-51
35507832-5	2022	Thus, CoP/CNTHPs can catalyze the hydrogen and oxygen evolution reactions effectively with overpotentials of 147 and 238 mV at 10 mA cm-2.	Hydrogen	34-42	caspase recruitment domain family member 16	Homo sapiens	6-9
35507832-5	2022	Thus, CoP/CNTHPs can catalyze the hydrogen and oxygen evolution reactions effectively with overpotentials of 147 and 238 mV at 10 mA cm-2.	Oxygen	47-53	caspase recruitment domain family member 16	Homo sapiens	6-9
35507832-6	2022	Simultaneously, CoP/CNTHPs only needs a voltage of 1.54 V to attain a current density of 10 mA cm-2 in the electrocatalytic water splitting process, demonstrating its bifunctional activity.	Water	124-129	caspase recruitment domain family member 16	Homo sapiens	16-19
35091149-1	2022	CoP is one of the most promising catalysts for catalyzing hydrogen evolution reaction.	Hydrogen	58-66	caspase recruitment domain family member 16	Homo sapiens	0-3
35091149-3	2022	Herein, utilizing selective combination of EDTA and Co2+, an amorphous-crystalline CoP with lower valence cobalt and hollow porous structure which induced by dual ligand environment is successfully synthesized via microwave heating and following phosphating process.	Edetic Acid	43-47	caspase recruitment domain family member 16	Homo sapiens	83-86
35091149-3	2022	Herein, utilizing selective combination of EDTA and Co2+, an amorphous-crystalline CoP with lower valence cobalt and hollow porous structure which induced by dual ligand environment is successfully synthesized via microwave heating and following phosphating process.	Cobalt	106-112	caspase recruitment domain family member 16	Homo sapiens	83-86
35091149-7	2022	The possible mechanism of valence state regulation of cobalt ions in CoP is discussed in detail.	Cobalt	54-60	caspase recruitment domain family member 16	Homo sapiens	69-72
35262982-6	2022	In this study, a high-performance N,Cu-CoP/carbon cloth (CC) catalyst was synthesized to catalyze the cathodic hydrogen evolution reaction (HER) at an especially low overpotential of 64.7 mV at 10 mA cm-2 .	Copper	36-38	caspase recruitment domain family member 16	Homo sapiens	39-42
35158276-2	2022	FTIR and XPS showed that phosphate groups were bonded to PPI through COP bonds.	Phosphates	25-34	caspase recruitment domain family member 16	Homo sapiens	69-72
35597016-4	2022	The formations of CoP and Co3S4 species on the CoMoO4 surface bring heterojunction interfaces for more catalytic active sites and strong electronic interaction for faster interfacial charge transfer.	comoo4	47-53	caspase recruitment domain family member 16	Homo sapiens	18-21
35262982-6	2022	In this study, a high-performance N,Cu-CoP/carbon cloth (CC) catalyst was synthesized to catalyze the cathodic hydrogen evolution reaction (HER) at an especially low overpotential of 64.7 mV at 10 mA cm-2 .	Carbon	43-49	caspase recruitment domain family member 16	Homo sapiens	39-42
35262982-6	2022	In this study, a high-performance N,Cu-CoP/carbon cloth (CC) catalyst was synthesized to catalyze the cathodic hydrogen evolution reaction (HER) at an especially low overpotential of 64.7 mV at 10 mA cm-2 .	Hydrogen	111-119	caspase recruitment domain family member 16	Homo sapiens	39-42
35262982-7	2022	H2 gas (13.7 mL cm-2 h-1 ) and NaZnPO4 (3.73 mg cm-2 h-1 ) were obtained at the cathode and anode, respectively, in the N,Cu-CoP/CC    Zn SCES spontaneously.	Deuterium	0-2	caspase recruitment domain family member 16	Homo sapiens	125-128
35262982-7	2022	H2 gas (13.7 mL cm-2 h-1 ) and NaZnPO4 (3.73 mg cm-2 h-1 ) were obtained at the cathode and anode, respectively, in the N,Cu-CoP/CC    Zn SCES spontaneously.	naznpo4	31-38	caspase recruitment domain family member 16	Homo sapiens	125-128
35262982-9	2022	Density functional theory (DFT) calculations were performed to elucidate the electronic structure and HER catalytic mechanism of the N and Cu-Co-doped CoP catalysts.	cu-co-doped	139-150	caspase recruitment domain family member 16	Homo sapiens	151-154
35561608-4	2022	Using 10% CoP and a ZCS/CoP concentration of 2.5 g L-1, the resulting ZCS/CoP/MWNTs/sponge catalyst exhibited the best catalytic of CO2 reduction ability toward formate (7894.6 mumol L-1) and formaldehyde (308.5 mumol L-1) after 60 min of discharge, respectively.	Formaldehyde	192-204	caspase recruitment domain family member 16	Homo sapiens	74-77
35064631-0	2022	Oxygen Vacancy and Core-Shell Heterojunction Engineering of Anemone-Like CoP@CoOOH Bifunctional Electrocatalyst for Efficient Overall Water Splitting.	Oxygen	0-6	caspase recruitment domain family member 16	Homo sapiens	73-76
35561608-0	2022	Promoting the reduction of CO2 to formate and formaldehyde via gas-liquid interface dielectric barrier discharge using a Zn0.5Cd0.5S/CoP/multiwalled carbon nanotubes catalyst.	Carbon Dioxide	27-30	caspase recruitment domain family member 16	Homo sapiens	133-136
35561608-0	2022	Promoting the reduction of CO2 to formate and formaldehyde via gas-liquid interface dielectric barrier discharge using a Zn0.5Cd0.5S/CoP/multiwalled carbon nanotubes catalyst.	formic acid	34-41	caspase recruitment domain family member 16	Homo sapiens	133-136
35561608-0	2022	Promoting the reduction of CO2 to formate and formaldehyde via gas-liquid interface dielectric barrier discharge using a Zn0.5Cd0.5S/CoP/multiwalled carbon nanotubes catalyst.	Formaldehyde	46-58	caspase recruitment domain family member 16	Homo sapiens	133-136
35561608-0	2022	Promoting the reduction of CO2 to formate and formaldehyde via gas-liquid interface dielectric barrier discharge using a Zn0.5Cd0.5S/CoP/multiwalled carbon nanotubes catalyst.	Carbon	149-155	caspase recruitment domain family member 16	Homo sapiens	133-136
35561608-3	2022	The CO2 reduction products (formate and formaldehyde) produced via dielectric barrier discharge (DBD) using the different catalysts proved that the introduction of the CoP nanowires co-catalyst can enhance the catalytic activity of ZCS/MWNTs/sponge in the DBD system.	Carbon Dioxide	4-7	caspase recruitment domain family member 16	Homo sapiens	168-171
35561608-3	2022	The CO2 reduction products (formate and formaldehyde) produced via dielectric barrier discharge (DBD) using the different catalysts proved that the introduction of the CoP nanowires co-catalyst can enhance the catalytic activity of ZCS/MWNTs/sponge in the DBD system.	formic acid	28-35	caspase recruitment domain family member 16	Homo sapiens	168-171
35561608-3	2022	The CO2 reduction products (formate and formaldehyde) produced via dielectric barrier discharge (DBD) using the different catalysts proved that the introduction of the CoP nanowires co-catalyst can enhance the catalytic activity of ZCS/MWNTs/sponge in the DBD system.	Formaldehyde	40-52	caspase recruitment domain family member 16	Homo sapiens	168-171
35561608-4	2022	Using 10% CoP and a ZCS/CoP concentration of 2.5 g L-1, the resulting ZCS/CoP/MWNTs/sponge catalyst exhibited the best catalytic of CO2 reduction ability toward formate (7894.6 mumol L-1) and formaldehyde (308.5 mumol L-1) after 60 min of discharge, respectively.	Carbon Dioxide	132-135	caspase recruitment domain family member 16	Homo sapiens	10-13
35561608-4	2022	Using 10% CoP and a ZCS/CoP concentration of 2.5 g L-1, the resulting ZCS/CoP/MWNTs/sponge catalyst exhibited the best catalytic of CO2 reduction ability toward formate (7894.6 mumol L-1) and formaldehyde (308.5 mumol L-1) after 60 min of discharge, respectively.	Carbon Dioxide	132-135	caspase recruitment domain family member 16	Homo sapiens	24-27
35561608-4	2022	Using 10% CoP and a ZCS/CoP concentration of 2.5 g L-1, the resulting ZCS/CoP/MWNTs/sponge catalyst exhibited the best catalytic of CO2 reduction ability toward formate (7894.6 mumol L-1) and formaldehyde (308.5 mumol L-1) after 60 min of discharge, respectively.	Carbon Dioxide	132-135	caspase recruitment domain family member 16	Homo sapiens	74-77
35561608-4	2022	Using 10% CoP and a ZCS/CoP concentration of 2.5 g L-1, the resulting ZCS/CoP/MWNTs/sponge catalyst exhibited the best catalytic of CO2 reduction ability toward formate (7894.6 mumol L-1) and formaldehyde (308.5 mumol L-1) after 60 min of discharge, respectively.	formic acid	161-168	caspase recruitment domain family member 16	Homo sapiens	10-13
35561608-4	2022	Using 10% CoP and a ZCS/CoP concentration of 2.5 g L-1, the resulting ZCS/CoP/MWNTs/sponge catalyst exhibited the best catalytic of CO2 reduction ability toward formate (7894.6 mumol L-1) and formaldehyde (308.5 mumol L-1) after 60 min of discharge, respectively.	formic acid	161-168	caspase recruitment domain family member 16	Homo sapiens	24-27
35561608-4	2022	Using 10% CoP and a ZCS/CoP concentration of 2.5 g L-1, the resulting ZCS/CoP/MWNTs/sponge catalyst exhibited the best catalytic of CO2 reduction ability toward formate (7894.6 mumol L-1) and formaldehyde (308.5 mumol L-1) after 60 min of discharge, respectively.	formic acid	161-168	caspase recruitment domain family member 16	Homo sapiens	74-77
35040208-0	2022	Crystalline-Amorphous Interfaces Coupling of CoSe2 /CoP with Optimized d-band Center and Boosted Electrocatalytic Hydrogen Evolution.	Hydrogen	114-122	caspase recruitment domain family member 16	Homo sapiens	52-55
35512588-0	2022	Boosting hydrogen and oxygen evolution of porous CoP nanosheet arrays through electronic modulating with oxygen-anion-incorporation.	Oxygen	22-28	caspase recruitment domain family member 16	Homo sapiens	49-52
35512588-0	2022	Boosting hydrogen and oxygen evolution of porous CoP nanosheet arrays through electronic modulating with oxygen-anion-incorporation.	Oxygen	105-111	caspase recruitment domain family member 16	Homo sapiens	49-52
35512588-0	2022	Boosting hydrogen and oxygen evolution of porous CoP nanosheet arrays through electronic modulating with oxygen-anion-incorporation.	Anions	112-117	caspase recruitment domain family member 16	Homo sapiens	49-52
35512588-2	2022	Herein, the synthesis of self-supported directional flake oxygen-incorporated cobalt phosphide arrays (O-CoP) with efficient bifunctional catalytic active sites was achieved by in situ oxidation followed by phosphorization of cobalt metal-organic framework nanosheet arrays (Co-MOF).	Oxygen	58-64	caspase recruitment domain family member 16	Homo sapiens	105-108
35512588-2	2022	Herein, the synthesis of self-supported directional flake oxygen-incorporated cobalt phosphide arrays (O-CoP) with efficient bifunctional catalytic active sites was achieved by in situ oxidation followed by phosphorization of cobalt metal-organic framework nanosheet arrays (Co-MOF).	cobalt phosphide	78-94	caspase recruitment domain family member 16	Homo sapiens	105-108
35512588-2	2022	Herein, the synthesis of self-supported directional flake oxygen-incorporated cobalt phosphide arrays (O-CoP) with efficient bifunctional catalytic active sites was achieved by in situ oxidation followed by phosphorization of cobalt metal-organic framework nanosheet arrays (Co-MOF).	cobalt metal	226-238	caspase recruitment domain family member 16	Homo sapiens	105-108
35512588-5	2022	Moreover, in the HER and OER couple system (HER  OER), the optimal O-CoP-40 catalyst delivers a low overpotential of only 1.54 V to obtain the 10 mA cm-2 and stably-running for 36 h. Theoretical calculations demonstrated that the electron-rich P-3p and O-2p orbitals could co-modulate the electronic environment of Co sites, which boosted water dissociation in the HER process and balanced the adsorption/desorption of intermediates in the OER pathway, resulting in a good overall water splitting.	Water	339-344	caspase recruitment domain family member 16	Homo sapiens	69-72
35512588-5	2022	Moreover, in the HER and OER couple system (HER  OER), the optimal O-CoP-40 catalyst delivers a low overpotential of only 1.54 V to obtain the 10 mA cm-2 and stably-running for 36 h. Theoretical calculations demonstrated that the electron-rich P-3p and O-2p orbitals could co-modulate the electronic environment of Co sites, which boosted water dissociation in the HER process and balanced the adsorption/desorption of intermediates in the OER pathway, resulting in a good overall water splitting.	Water	481-486	caspase recruitment domain family member 16	Homo sapiens	69-72
35064631-0	2022	Oxygen Vacancy and Core-Shell Heterojunction Engineering of Anemone-Like CoP@CoOOH Bifunctional Electrocatalyst for Efficient Overall Water Splitting.	Water	134-139	caspase recruitment domain family member 16	Homo sapiens	73-76
35064631-2	2022	Herein, an in situ integration engineering strategy of oxygen-vacancy and core-shell heterojunction to fabricate an anemone-like CoP@CoOOH core-shell heterojunction with rich oxygen-vacancies supported on carbon paper (CoP@CoOOH/CP), is described.	Oxygen	55-61	caspase recruitment domain family member 16	Homo sapiens	129-132
35064631-2	2022	Herein, an in situ integration engineering strategy of oxygen-vacancy and core-shell heterojunction to fabricate an anemone-like CoP@CoOOH core-shell heterojunction with rich oxygen-vacancies supported on carbon paper (CoP@CoOOH/CP), is described.	Oxygen	55-61	caspase recruitment domain family member 16	Homo sapiens	219-222
35064631-2	2022	Herein, an in situ integration engineering strategy of oxygen-vacancy and core-shell heterojunction to fabricate an anemone-like CoP@CoOOH core-shell heterojunction with rich oxygen-vacancies supported on carbon paper (CoP@CoOOH/CP), is described.	Oxygen	175-181	caspase recruitment domain family member 16	Homo sapiens	129-132
35064631-2	2022	Herein, an in situ integration engineering strategy of oxygen-vacancy and core-shell heterojunction to fabricate an anemone-like CoP@CoOOH core-shell heterojunction with rich oxygen-vacancies supported on carbon paper (CoP@CoOOH/CP), is described.	Oxygen	175-181	caspase recruitment domain family member 16	Homo sapiens	219-222
35064631-2	2022	Herein, an in situ integration engineering strategy of oxygen-vacancy and core-shell heterojunction to fabricate an anemone-like CoP@CoOOH core-shell heterojunction with rich oxygen-vacancies supported on carbon paper (CoP@CoOOH/CP), is described.	Carbon	205-211	caspase recruitment domain family member 16	Homo sapiens	129-132
35064631-2	2022	Herein, an in situ integration engineering strategy of oxygen-vacancy and core-shell heterojunction to fabricate an anemone-like CoP@CoOOH core-shell heterojunction with rich oxygen-vacancies supported on carbon paper (CoP@CoOOH/CP), is described.	Carbon	205-211	caspase recruitment domain family member 16	Homo sapiens	219-222
35064631-3	2022	Benefiting from the synergy of CoP core and oxygen-vacancy-rich CoOOH shell, the as-obtained CoP@CoOOH/CP catalyst displays low overpotentials at 10 mA cm-2 for HER (89.6 mV/81.7 mV) and OER (318 mV/200 mV) in neutral and alkaline media, respectively.	Oxygen	44-50	caspase recruitment domain family member 16	Homo sapiens	93-96
35064631-3	2022	Benefiting from the synergy of CoP core and oxygen-vacancy-rich CoOOH shell, the as-obtained CoP@CoOOH/CP catalyst displays low overpotentials at 10 mA cm-2 for HER (89.6 mV/81.7 mV) and OER (318 mV/200 mV) in neutral and alkaline media, respectively.	coooh	64-69	caspase recruitment domain family member 16	Homo sapiens	93-96
35064631-3	2022	Benefiting from the synergy of CoP core and oxygen-vacancy-rich CoOOH shell, the as-obtained CoP@CoOOH/CP catalyst displays low overpotentials at 10 mA cm-2 for HER (89.6 mV/81.7 mV) and OER (318 mV/200 mV) in neutral and alkaline media, respectively.	coooh	97-102	caspase recruitment domain family member 16	Homo sapiens	31-34
35064631-3	2022	Benefiting from the synergy of CoP core and oxygen-vacancy-rich CoOOH shell, the as-obtained CoP@CoOOH/CP catalyst displays low overpotentials at 10 mA cm-2 for HER (89.6 mV/81.7 mV) and OER (318 mV/200 mV) in neutral and alkaline media, respectively.	coooh	97-102	caspase recruitment domain family member 16	Homo sapiens	93-96
35064631-4	2022	Notably, a two-electrode electrolyzer, using CoP@CoOOH/CP as bifunctional catalyst to achieve 10 mA cm-2 , only needs low-cell voltages in neutral (1.65 V) and alkaline (1.52 V) electrolyte.	coooh	49-54	caspase recruitment domain family member 16	Homo sapiens	45-48
35018919-0	2022	Porous N-doped carbon with confined Fe-doped CoP grown on CNTs for superefficient oxygen evolution electrocatalysis.	Iron	36-38	caspase recruitment domain family member 16	Homo sapiens	45-48
35191284-7	2022	OLBT was evaluated by calculating total displacement of the CoP trajectory.	olbt	0-4	caspase recruitment domain family member 16	Homo sapiens	60-63
35018919-0	2022	Porous N-doped carbon with confined Fe-doped CoP grown on CNTs for superefficient oxygen evolution electrocatalysis.	Oxygen	82-88	caspase recruitment domain family member 16	Homo sapiens	45-48
35018919-1	2022	Herein, Fe-doped CoP nanoparticles (Fe-CoP NPs) encapsulated in porous N-doped carbon (PNC)/carbon nanotubes (CNTs) have been successfully synthesized.	PARA-NITROBENZYL GLUTARYL GLYCINIC ACID	87-90	caspase recruitment domain family member 16	Homo sapiens	39-42
3127047-4	1988	Cross-breeding COP to any of the highly susceptible strains produced F1 hybrids which are resistant to DMBA-induced mammary adenocarcinogenesis.	6,11-dimethylbenzo(b)naphtho(2,3-d)thiophene	103-107	caspase recruitment domain family member 16	Homo sapiens	15-18
35013265-3	2022	The electrochemical energy storage cell utilizes heterostructural Co2P-CoP-NiCoO2 nanometric arrays and zinc metal as the cathode and anode, respectively, and shows a capacity retention of approximately 78% after 25000 cycles at 32 A/g.	nicoo2	75-81	caspase recruitment domain family member 16	Homo sapiens	71-74
3127047-6	1988	The resistance of the F1 hybrids produced by cross-breeding these highly susceptible strains to the COP strain therefore is not due to a recessive lack of susceptibility but to an active process of suppression of the high susceptibility of these F1 hybrids to DMBA-induced mammary adenocarcinogenesis.	6,11-dimethylbenzo(b)naphtho(2,3-d)thiophene	260-264	caspase recruitment domain family member 16	Homo sapiens	100-103
2420278-2	1986	The response rate for COP therapy (CDDP, Vincristine, Peplomycin) was better than those for CDDP administration only or CP (CDDP Peplomycin) therapy for carcinomas of the head and neck.	Cisplatin	35-39	caspase recruitment domain family member 16	Homo sapiens	22-25
2900094-8	1988	The dependence of COP on protein and salt concentrations and on pH are therefore considered empirically.	Salts	37-41	caspase recruitment domain family member 16	Homo sapiens	18-21
3327022-1	1987	In a phase-III study in non-Hodgkin"s lymphoma of low malignancy we compared a combination therapy with vincristine (COP) with a vindesine combination (CEP).	Vincristine	104-115	caspase recruitment domain family member 16	Homo sapiens	117-120
3626031-1	1987	In 20 cases of head and neck carcinomas, we have studied the immunological alternation by combined chemotherapy with Cisplatin, Vincristine, and Peplomycin (COP therapy).	Cisplatin	117-126	caspase recruitment domain family member 16	Homo sapiens	157-160
3626031-1	1987	In 20 cases of head and neck carcinomas, we have studied the immunological alternation by combined chemotherapy with Cisplatin, Vincristine, and Peplomycin (COP therapy).	Peplomycin	145-155	caspase recruitment domain family member 16	Homo sapiens	157-160
2937933-4	1986	The decrease in COP metabolites was due to a markedly reduced synthesis of prostacyclin (PGI2), with no changes in thromboxane B2 (TxB2), prostaglandin F2 alpha (PGF2 alpha) and prostaglandin E2 (PGE2) production.	Epoprostenol	75-87	caspase recruitment domain family member 16	Homo sapiens	16-19
2937933-4	1986	The decrease in COP metabolites was due to a markedly reduced synthesis of prostacyclin (PGI2), with no changes in thromboxane B2 (TxB2), prostaglandin F2 alpha (PGF2 alpha) and prostaglandin E2 (PGE2) production.	Epoprostenol	89-93	caspase recruitment domain family member 16	Homo sapiens	16-19
2420278-2	1986	The response rate for COP therapy (CDDP, Vincristine, Peplomycin) was better than those for CDDP administration only or CP (CDDP Peplomycin) therapy for carcinomas of the head and neck.	Vincristine	41-52	caspase recruitment domain family member 16	Homo sapiens	22-25
2420278-2	1986	The response rate for COP therapy (CDDP, Vincristine, Peplomycin) was better than those for CDDP administration only or CP (CDDP Peplomycin) therapy for carcinomas of the head and neck.	Peplomycin	54-64	caspase recruitment domain family member 16	Homo sapiens	22-25
3087851-7	1986	COP value in a given dialyzed serum sample was dependent on the molar concentration of the solution and independent of the different salt solution with KCl, CaCl2 and MgCl2.	Calcium Chloride	157-162	caspase recruitment domain family member 16	Homo sapiens	0-3
94197-14	1979	Here particularly the COP-scheme proved to be favourable, if necessary in connection with bleomycin, adriamycin or methotrexat; also BCNU or dakarbacin are possible.	Bleomycin	90-99	caspase recruitment domain family member 16	Homo sapiens	22-25
3087851-8	1986	COP values were observed in 44 patients in 12 months after treatment with niridazole.	Niridazole	74-84	caspase recruitment domain family member 16	Homo sapiens	0-3
3087851-10	1986	Re-dialysis of these sera with 0.15 M NaCl solution resulted in the equal COP value in all cases.	nacl solution	38-51	caspase recruitment domain family member 16	Homo sapiens	74-77
4034725-1	1985	We have isolated and characterized cop, copts, and repam mutants of plasmid mini-F after in vitro mutagenesis with hydroxylamine.	Hydroxylamine	115-128	caspase recruitment domain family member 16	Homo sapiens	35-38
6179448-1	1982	A new multiple-drug protocol consisting of cyclophosphamide, vincristine, prednisone, bleomycin, doxorubicin, and procarbazine, known as COP-BLAM, was administered to 48 patients with stage III or IV diffuse histiocytic lymphoma.	Prednisone	74-84	caspase recruitment domain family member 16	Homo sapiens	137-140
6179448-1	1982	A new multiple-drug protocol consisting of cyclophosphamide, vincristine, prednisone, bleomycin, doxorubicin, and procarbazine, known as COP-BLAM, was administered to 48 patients with stage III or IV diffuse histiocytic lymphoma.	Bleomycin	86-95	caspase recruitment domain family member 16	Homo sapiens	137-140
6179448-1	1982	A new multiple-drug protocol consisting of cyclophosphamide, vincristine, prednisone, bleomycin, doxorubicin, and procarbazine, known as COP-BLAM, was administered to 48 patients with stage III or IV diffuse histiocytic lymphoma.	Procarbazine	114-126	caspase recruitment domain family member 16	Homo sapiens	137-140
6396563-2	1984	Chemotherapy with cyclophosphamide, vincristine and prednisone (COP) yielded partial response, but the addition of adriamycin (CHOP) a complete remission.	Cyclophosphamide	18-34	caspase recruitment domain family member 16	Homo sapiens	64-67
6396563-2	1984	Chemotherapy with cyclophosphamide, vincristine and prednisone (COP) yielded partial response, but the addition of adriamycin (CHOP) a complete remission.	Prednisone	52-62	caspase recruitment domain family member 16	Homo sapiens	64-67
6167516-5	1981	The results show that a quick and reliable improvement of hypovolemia can be obtained in both groups immediately after infusion, but that the COP- and volume-stabilizing effects of HES-infusion are more distinct and remained for a significantly longer period of time than the effects of albumin 5%-infusion.	Helium	181-184	caspase recruitment domain family member 16	Homo sapiens	142-145
94197-14	1979	Here particularly the COP-scheme proved to be favourable, if necessary in connection with bleomycin, adriamycin or methotrexat; also BCNU or dakarbacin are possible.	Doxorubicin	101-111	caspase recruitment domain family member 16	Homo sapiens	22-25
94197-14	1979	Here particularly the COP-scheme proved to be favourable, if necessary in connection with bleomycin, adriamycin or methotrexat; also BCNU or dakarbacin are possible.	Methotrexate	115-126	caspase recruitment domain family member 16	Homo sapiens	22-25
94197-14	1979	Here particularly the COP-scheme proved to be favourable, if necessary in connection with bleomycin, adriamycin or methotrexat; also BCNU or dakarbacin are possible.	Carmustine	133-137	caspase recruitment domain family member 16	Homo sapiens	22-25
94197-14	1979	Here particularly the COP-scheme proved to be favourable, if necessary in connection with bleomycin, adriamycin or methotrexat; also BCNU or dakarbacin are possible.	dakarbacin	141-151	caspase recruitment domain family member 16	Homo sapiens	22-25
84706-3	1979	Confirmed rates of CR for 443 evaluable patients were 59% for 286 patients receiving the CHOP regimens and 59% for 157 patients receiving COP-Bleo.	Chromium	19-21	caspase recruitment domain family member 16	Homo sapiens	138-141
84706-6	1979	For patients with diffuse lymphomas the CR rate was higher with the CHOP programs (58%) than with COP-Bleo (44%) (p = 0.10).	Chromium	40-42	caspase recruitment domain family member 16	Homo sapiens	98-101
507741-1	1979	A case of localized lymphomatous polyposis of the rectum successfully treated with a combination of cyclophosphamide, vincristine and prednisone (COP regimen) is reported and the literature is briefly reviewed.	Cyclophosphamide	100-116	caspase recruitment domain family member 16	Homo sapiens	146-149
507741-1	1979	A case of localized lymphomatous polyposis of the rectum successfully treated with a combination of cyclophosphamide, vincristine and prednisone (COP regimen) is reported and the literature is briefly reviewed.	Prednisone	134-144	caspase recruitment domain family member 16	Homo sapiens	146-149
395957-2	1979	N-Methyl-N-(beta-hydroxyethyl)guanidine O-phosphate (creatinol O-phosphate, COP) has proved to possess anti-ischemic and anti-arrhythmic activities associated with improved ionic balance and heart performance.	creatinol phosphate	0-51	caspase recruitment domain family member 16	Homo sapiens	76-79
34000185-0	2021	Boosting Hydrazine Oxidation Reaction on CoP/Co Mott-Schottky Electrocatalyst through Engineering Active Sites.	hydrazine	9-18	caspase recruitment domain family member 16	Homo sapiens	41-44
364284-1	1978	The results of a chemotherapy regimen utilizing adriamycin in combination with vincristine, prednisone plus or minus cyclophosphamide (CHOP-HOP) for the treatment of non-Hodgkin lymphoma are compared to those of a non-adriamycin containing combination (COP).	Doxorubicin	48-58	caspase recruitment domain family member 16	Homo sapiens	253-256
66957-11	1977	BACOP resulted in a higher CR rate and longer survival than a previous three-drug program (COP), especially in patients with diffuse histology.	Chromium	27-29	caspase recruitment domain family member 16	Homo sapiens	2-5
949497-8	1976	Acta (1974) 340, 299) between the geometry of the phosphate group and the conformation of phosphodiesters established by PCILO computations, shows that the probability of gauche-trans or trans-gauche conformations should become appreciable for low values (100-101) of the 33"-P-O5", angle and may even become predominant when the C-O-P angles have also a low value (congruent to 117 degrees).	Phosphates	50-59	caspase recruitment domain family member 16	Homo sapiens	330-335
1026858-2	1976	There was clinical response to COP therapy (cytoxin, oncovin, prednisone).	Prednisone	62-72	caspase recruitment domain family member 16	Homo sapiens	31-34
33740509-4	2021	High level of soy sauce or sugar inhibited COP formation, while the low-level minimized PAH formation in thin slices of dried pork during roasting.	Sugars	27-32	caspase recruitment domain family member 16	Homo sapiens	43-46
33740509-5	2021	Sugar was more effective in inhibiting COP formation while soy sauce was more efficient in reducing PAH formation.	Sugars	0-5	caspase recruitment domain family member 16	Homo sapiens	39-42
33893666-4	2021	The dynamic nanosheets form adaptive defects/pores in the synthetic process of CoP nanoparticles, giving embedded composite with high hydrogen evolution activity (overpotential of 66 mV at 10 mA cm-2 ) and stability.	Hydrogen	134-142	caspase recruitment domain family member 16	Homo sapiens	79-82
33601106-0	2021	Synergistically coupling of Fe-doped CoP nanocubes with CoP nanosheet arrays towards enhanced and robust oxygen evolution electrocatalysis.	Iron	28-30	caspase recruitment domain family member 16	Homo sapiens	37-40
33601106-0	2021	Synergistically coupling of Fe-doped CoP nanocubes with CoP nanosheet arrays towards enhanced and robust oxygen evolution electrocatalysis.	Iron	28-30	caspase recruitment domain family member 16	Homo sapiens	56-59
33601106-0	2021	Synergistically coupling of Fe-doped CoP nanocubes with CoP nanosheet arrays towards enhanced and robust oxygen evolution electrocatalysis.	Oxygen	105-111	caspase recruitment domain family member 16	Homo sapiens	37-40
33601106-0	2021	Synergistically coupling of Fe-doped CoP nanocubes with CoP nanosheet arrays towards enhanced and robust oxygen evolution electrocatalysis.	Oxygen	105-111	caspase recruitment domain family member 16	Homo sapiens	56-59
33601106-2	2021	Herein, we demonstrate an interfacial engineering strategy to prepare Fe-doped CoP nanocubes/CoP nanosheet arrays heterostructure supported on carbon cloth (denoted as CoFeP/CoP/CC).	Iron	70-72	caspase recruitment domain family member 16	Homo sapiens	79-82
33601106-2	2021	Herein, we demonstrate an interfacial engineering strategy to prepare Fe-doped CoP nanocubes/CoP nanosheet arrays heterostructure supported on carbon cloth (denoted as CoFeP/CoP/CC).	Carbon	143-149	caspase recruitment domain family member 16	Homo sapiens	79-82
33601106-2	2021	Herein, we demonstrate an interfacial engineering strategy to prepare Fe-doped CoP nanocubes/CoP nanosheet arrays heterostructure supported on carbon cloth (denoted as CoFeP/CoP/CC).	Carbon	143-149	caspase recruitment domain family member 16	Homo sapiens	93-96
33601106-2	2021	Herein, we demonstrate an interfacial engineering strategy to prepare Fe-doped CoP nanocubes/CoP nanosheet arrays heterostructure supported on carbon cloth (denoted as CoFeP/CoP/CC).	Carbon	143-149	caspase recruitment domain family member 16	Homo sapiens	93-96
33601106-5	2021	Benefiting from these advantages, the CoFeP/CoP/CC-heterostructure exhibits high electrocatalytic OER performance with a low overpotential of 240 mV for reaching a current density of 10 mA cm-2, which outperforms the commercial noble metal RuO2 (255 mV) and many reported TMPs-based electrocatalysts.	metal ruo2	234-244	caspase recruitment domain family member 16	Homo sapiens	44-47
33601106-5	2021	Benefiting from these advantages, the CoFeP/CoP/CC-heterostructure exhibits high electrocatalytic OER performance with a low overpotential of 240 mV for reaching a current density of 10 mA cm-2, which outperforms the commercial noble metal RuO2 (255 mV) and many reported TMPs-based electrocatalysts.	6-methylprednisolone-21-hemisuberate N,N,N'-triethylenediamine amide	272-276	caspase recruitment domain family member 16	Homo sapiens	44-47
33611046-0	2021	Structure-regulated Ru particles decorated P-vacancy-rich CoP as a highly active and durable catalyst for NaBH4 hydrolysis.	Ruthenium	20-22	caspase recruitment domain family member 16	Homo sapiens	58-61
33611046-0	2021	Structure-regulated Ru particles decorated P-vacancy-rich CoP as a highly active and durable catalyst for NaBH4 hydrolysis.	sodium borohydride	106-111	caspase recruitment domain family member 16	Homo sapiens	58-61
33611046-5	2021	More importantly, the optimized Ru9.8/r-CoP catalyst has the lowest activation energy (45.3 kJ mol-1) and exhibits excellent catalytic performance for NaBH4 hydrolysis with a high hydrogen generation rate 9783.3 mLH2 min-1 gcat-1 at 25  C, which is higher than most of the cobalt-based catalysts.	sodium borohydride	151-156	caspase recruitment domain family member 16	Homo sapiens	40-43
33611046-5	2021	More importantly, the optimized Ru9.8/r-CoP catalyst has the lowest activation energy (45.3 kJ mol-1) and exhibits excellent catalytic performance for NaBH4 hydrolysis with a high hydrogen generation rate 9783.3 mLH2 min-1 gcat-1 at 25  C, which is higher than most of the cobalt-based catalysts.	Hydrogen	180-188	caspase recruitment domain family member 16	Homo sapiens	40-43
33611046-5	2021	More importantly, the optimized Ru9.8/r-CoP catalyst has the lowest activation energy (45.3 kJ mol-1) and exhibits excellent catalytic performance for NaBH4 hydrolysis with a high hydrogen generation rate 9783.3 mLH2 min-1 gcat-1 at 25  C, which is higher than most of the cobalt-based catalysts.	Cobalt	273-279	caspase recruitment domain family member 16	Homo sapiens	40-43
33611046-6	2021	Moreover, the Ru9.8/r-CoP catalyst also shows good reusability.	Arginine	2-3	caspase recruitment domain family member 16	Homo sapiens	22-25
33611046-9	2021	The excellent catalytic performance of Ru9.8/r-CoP is attributed to the abundant phosphorus vacancies along with a large specific surface area of r-CoP, which makes the Ru particles smaller and more uniformly dispersed on the surface, thereby exposing more active sites to show improved performance.	Phosphorus	81-91	caspase recruitment domain family member 16	Homo sapiens	47-50
34000185-5	2021	A shown by with structural characterization and density functional theory (DFT) calculations, the interfaces between CoP/Co nanoparticles not only provide the active sites of HzOR but also promote the multistep dehydrogenation reaction of N2H4, thus enhancing the HzOR activity.	hydrazine	239-243	caspase recruitment domain family member 16	Homo sapiens	117-120
34052536-0	2021	A novel worm-like micelles@MOFs precursor for constructing hierarchically porous CoP/N-doped carbon networks towards efficient hydrogen evolution reaction.	Carbon	93-99	caspase recruitment domain family member 16	Homo sapiens	81-84
34052536-0	2021	A novel worm-like micelles@MOFs precursor for constructing hierarchically porous CoP/N-doped carbon networks towards efficient hydrogen evolution reaction.	Hydrogen	127-135	caspase recruitment domain family member 16	Homo sapiens	81-84
34052536-2	2021	Hierarchically porous cobalt phosphide/N-doped nanotubular carbon networks (CoP/NCNs) that have all the features were fabricated in this work.	cobalt phosphide	22-38	caspase recruitment domain family member 16	Homo sapiens	76-79
34052536-2	2021	Hierarchically porous cobalt phosphide/N-doped nanotubular carbon networks (CoP/NCNs) that have all the features were fabricated in this work.	Nitrogen	39-40	caspase recruitment domain family member 16	Homo sapiens	76-79
34052536-2	2021	Hierarchically porous cobalt phosphide/N-doped nanotubular carbon networks (CoP/NCNs) that have all the features were fabricated in this work.	Carbon	59-65	caspase recruitment domain family member 16	Homo sapiens	76-79
34052536-5	2021	Then, the hybrid networks were treated by pyrolysis-oxidation-phosphidation and ZnO-removal processes, leading to the hierarchically porous CoP/NCNs.	Zinc Oxide	80-83	caspase recruitment domain family member 16	Homo sapiens	140-143
34052536-6	2021	In the CoP/NCNs, there are plentiful CoP nanoparticles embedded on the surface of conductive carbon network and fully exposed.	Carbon	93-99	caspase recruitment domain family member 16	Homo sapiens	7-10
34052536-6	2021	In the CoP/NCNs, there are plentiful CoP nanoparticles embedded on the surface of conductive carbon network and fully exposed.	Carbon	93-99	caspase recruitment domain family member 16	Homo sapiens	37-40
33961439-0	2021	Ultraeven Mo-Doped CoP Nanocrystals as Bifunctional Electrocatalyst for Efficient Overall Water Splitting.	doped	13-18	caspase recruitment domain family member 16	Homo sapiens	19-22
33961439-0	2021	Ultraeven Mo-Doped CoP Nanocrystals as Bifunctional Electrocatalyst for Efficient Overall Water Splitting.	Water	90-95	caspase recruitment domain family member 16	Homo sapiens	19-22
33961439-2	2021	The ordered arrangement of cations in the CoMo-LDH could be easily phosphored and generate the ultraevenly dispersed Mo element within the CoP structure, resulting in the excellent bifunctional catalyst for overall water splitting.	Water	215-220	caspase recruitment domain family member 16	Homo sapiens	139-142
34051467-0	2021	Nanowire-structured FeP-CoP arrays as highly active and stable bifunctional electrocatalyst synergistically promoting high-current overall water splitting.	Water	139-144	caspase recruitment domain family member 16	Homo sapiens	24-27
34051467-2	2021	To achieve this goal, we have developed a bifunctional nanowire-structured FeP-CoP array catalyst on carbon cloth with uniform distribution through in-situ hydrothermal growth and phosphating treatment.	Carbon	101-107	caspase recruitment domain family member 16	Homo sapiens	79-82
33369250-0	2021	Hierarchical CoP nanostructures on nickel foam as efficient bifunctional catalysts for water splitting.	Nickel	35-41	caspase recruitment domain family member 16	Homo sapiens	13-16
33891343-0	2021	One-Step Template/Solvent-Free Pyrolysis for in-situ  Immobilization of CoP Nanoparticles onto N and P co-Doped Carbon Porous Nanosheets towards High-efficiency Electrocatalytic Hydrogen Evolution.	Nitrogen	76-77	caspase recruitment domain family member 16	Homo sapiens	72-75
33891343-0	2021	One-Step Template/Solvent-Free Pyrolysis for in-situ  Immobilization of CoP Nanoparticles onto N and P co-Doped Carbon Porous Nanosheets towards High-efficiency Electrocatalytic Hydrogen Evolution.	Phosphorus	31-32	caspase recruitment domain family member 16	Homo sapiens	72-75
33891343-0	2021	One-Step Template/Solvent-Free Pyrolysis for in-situ  Immobilization of CoP Nanoparticles onto N and P co-Doped Carbon Porous Nanosheets towards High-efficiency Electrocatalytic Hydrogen Evolution.	Carbon	112-118	caspase recruitment domain family member 16	Homo sapiens	72-75
33891343-0	2021	One-Step Template/Solvent-Free Pyrolysis for in-situ  Immobilization of CoP Nanoparticles onto N and P co-Doped Carbon Porous Nanosheets towards High-efficiency Electrocatalytic Hydrogen Evolution.	Hydrogen	178-186	caspase recruitment domain family member 16	Homo sapiens	72-75
33891343-3	2021	Herein, we report a one-step scalable template/solvent-free pyrolysis approach for in-situ immobilizing uniform CoP nanoparticles onto N and P co-doped carbon porous nanosheets (denoted as CoP@N,P-CNSs hereafter).	Carbon	152-158	caspase recruitment domain family member 16	Homo sapiens	112-115
33933794-0	2021	CoP imbedded g-C3N4 heterojunctions for highly efficient photo, electro and photoelectrochemical water splitting.	Water	97-102	caspase recruitment domain family member 16	Homo sapiens	0-3
33933794-1	2021	Nanorod-like CoP nanoparticles were fabricated from different precursors of Co(OH)2 and Co3O4 by gas-solid reaction, then further embedded into g-C3N4 nanosheets to form intimate heterojunctions via the (011) crystal planes of CoP nanoparticles.	co(oh)2	76-83	caspase recruitment domain family member 16	Homo sapiens	13-16
33933794-1	2021	Nanorod-like CoP nanoparticles were fabricated from different precursors of Co(OH)2 and Co3O4 by gas-solid reaction, then further embedded into g-C3N4 nanosheets to form intimate heterojunctions via the (011) crystal planes of CoP nanoparticles.	co3o4	88-93	caspase recruitment domain family member 16	Homo sapiens	13-16
33933794-1	2021	Nanorod-like CoP nanoparticles were fabricated from different precursors of Co(OH)2 and Co3O4 by gas-solid reaction, then further embedded into g-C3N4 nanosheets to form intimate heterojunctions via the (011) crystal planes of CoP nanoparticles.	c3n4	146-150	caspase recruitment domain family member 16	Homo sapiens	13-16
33933794-3	2021	In photocatalytic water half-splitting for hydrogen evolution reaction, the as-obtained 0.5% CoP-CN achieved a rate at 959.4 mumol h-1 g-1 and 59.1 mumol h-1 g-1 when irradiated by simulated sunlight and visible light respectively, almost 3.1 times and 15.8 times that of pristine g-C3N4, For photocatalytic water full-splitting, a stoichiometric evolution of H2 (14.7 mumol h-1 g-1) and O2 (7.6 mumol h-1 g-1) was observed on 3%Pt-0.5% CoP-CN composite.	Water	18-23	caspase recruitment domain family member 16	Homo sapiens	93-96
33933794-3	2021	In photocatalytic water half-splitting for hydrogen evolution reaction, the as-obtained 0.5% CoP-CN achieved a rate at 959.4 mumol h-1 g-1 and 59.1 mumol h-1 g-1 when irradiated by simulated sunlight and visible light respectively, almost 3.1 times and 15.8 times that of pristine g-C3N4, For photocatalytic water full-splitting, a stoichiometric evolution of H2 (14.7 mumol h-1 g-1) and O2 (7.6 mumol h-1 g-1) was observed on 3%Pt-0.5% CoP-CN composite.	Water	308-313	caspase recruitment domain family member 16	Homo sapiens	93-96
33933794-5	2021	Meanwhile, a higher photocurrent response and larger anodic photocurrent was detected over 0.5% CoP-CN photoanode during the photoelectrochemical water splitting process, relative to pristine g-C3N4 and its analogues.	Water	146-151	caspase recruitment domain family member 16	Homo sapiens	96-99
33933794-6	2021	The comprehensive enhancements for catalytic activity of 0.5% CoP-CN could be attributed to its reduced over-potentials, more negative photo-reductive potentials, boosted interfacial charge transfer efficiency, as well as a much higher solar to hydrogen efficiency.	Hydrogen	245-253	caspase recruitment domain family member 16	Homo sapiens	62-65
33933794-7	2021	The contrastive redox roles of CoP in both photocatalytic water half-splitting and full-splitting processes have been fully explored and revealed.	Water	58-63	caspase recruitment domain family member 16	Homo sapiens	31-34
33933794-8	2021	This design on covalent organic framework of highly efficient CoP-based heterojunctions holds great promise for direct water splitting applications in utilizing solar energy.	Water	119-124	caspase recruitment domain family member 16	Homo sapiens	62-65
33864237-4	2021	THP-COP (pirarubicin, cyclophosphamide, vincristine, and prednisone) is sometimes used for elderly patients with non-Hodgkin"s lymphoma in Japan.	pirarubicin	9-20	caspase recruitment domain family member 16	Homo sapiens	4-7
33864237-4	2021	THP-COP (pirarubicin, cyclophosphamide, vincristine, and prednisone) is sometimes used for elderly patients with non-Hodgkin"s lymphoma in Japan.	Cyclophosphamide	22-38	caspase recruitment domain family member 16	Homo sapiens	4-7
33864237-4	2021	THP-COP (pirarubicin, cyclophosphamide, vincristine, and prednisone) is sometimes used for elderly patients with non-Hodgkin"s lymphoma in Japan.	Vincristine	40-51	caspase recruitment domain family member 16	Homo sapiens	4-7
33864237-4	2021	THP-COP (pirarubicin, cyclophosphamide, vincristine, and prednisone) is sometimes used for elderly patients with non-Hodgkin"s lymphoma in Japan.	Prednisone	57-67	caspase recruitment domain family member 16	Homo sapiens	4-7
33864237-7	2021	The median age was 65 years in the CHOP group and 75 years in the THP-COP group.	pirarubicin	66-69	caspase recruitment domain family member 16	Homo sapiens	70-73
33864237-8	2021	The probability of 3-year overall survival (OS) was 49.0% in the CHOP group and 44.9% in the THP-COP group.	pirarubicin	93-96	caspase recruitment domain family member 16	Homo sapiens	97-100
33864237-10	2021	Although our study was limited by its retrospective nature, it showed that clinical outcomes with the THP-COP regimen were comparable to those with the CHOP regimen in PTCL-NOS and AITL.	pirarubicin	102-105	caspase recruitment domain family member 16	Homo sapiens	106-109
33595272-0	2021	NiCo-Layered Double Hydroxide-Derived B-Doped CoP/Ni2P Hollow Nanoprisms as High-Efficiency Electrocatalysts for Hydrogen Evolution Reaction.	Niacin	0-4	caspase recruitment domain family member 16	Homo sapiens	46-49
33595272-0	2021	NiCo-Layered Double Hydroxide-Derived B-Doped CoP/Ni2P Hollow Nanoprisms as High-Efficiency Electrocatalysts for Hydrogen Evolution Reaction.	hydroxide ion	20-29	caspase recruitment domain family member 16	Homo sapiens	46-49
33595272-0	2021	NiCo-Layered Double Hydroxide-Derived B-Doped CoP/Ni2P Hollow Nanoprisms as High-Efficiency Electrocatalysts for Hydrogen Evolution Reaction.	Hydrogen	113-121	caspase recruitment domain family member 16	Homo sapiens	46-49
33595272-3	2021	Among the as-synthesized products of different mole ratios of Ni/Co, the NiCo2-B-P nanoprisms that integrate the advantages of a hollow structure, an optimal Ni-Co synergistic effect, and a unique B-doped CoP/Ni2P bimetallic phosphide derived from NiCo-LDH nanosheets exhibit excellent hydrogen evolution reaction (HER) activity in an alkaline solution at 10 mA cm-2 with the lowest overpotential of 78 mV and long-term stability.	nico2-b-p	73-82	caspase recruitment domain family member 16	Homo sapiens	205-208
33595272-3	2021	Among the as-synthesized products of different mole ratios of Ni/Co, the NiCo2-B-P nanoprisms that integrate the advantages of a hollow structure, an optimal Ni-Co synergistic effect, and a unique B-doped CoP/Ni2P bimetallic phosphide derived from NiCo-LDH nanosheets exhibit excellent hydrogen evolution reaction (HER) activity in an alkaline solution at 10 mA cm-2 with the lowest overpotential of 78 mV and long-term stability.	Cobalt	75-77	caspase recruitment domain family member 16	Homo sapiens	205-208
33617222-0	2021	Crystal Phase-Controlled Synthesis of the CoP@Co2P Heterostructure with 3D Nanowire Networks for High-Performance Li-Ion Capacitor Applications.	co2p	46-50	caspase recruitment domain family member 16	Homo sapiens	42-45
33617222-2	2021	Herein, a strategy is presented for the controllable synthesis of cobalt-based phosphides with various morphologies by adjusting the time of the phosphidation process, including 3D hierarchical needle-stacked diabolo-shaped CoP nanorods, 3D hierarchical stick-stacked diabolo-shaped Co2P nanorods, and 3D hierarchical heterostructure CoP@Co2P nanorods.	cobalt-based phosphides	66-89	caspase recruitment domain family member 16	Homo sapiens	224-227
33617222-2	2021	Herein, a strategy is presented for the controllable synthesis of cobalt-based phosphides with various morphologies by adjusting the time of the phosphidation process, including 3D hierarchical needle-stacked diabolo-shaped CoP nanorods, 3D hierarchical stick-stacked diabolo-shaped Co2P nanorods, and 3D hierarchical heterostructure CoP@Co2P nanorods.	cobalt-based phosphides	66-89	caspase recruitment domain family member 16	Homo sapiens	334-337
33617222-4	2021	Owing to these merits, the 3D hierarchical CoP, Co2P, and CoP@Co2P nanorods demonstrate prominent specific capacities of 573, 609, and 621 mA h g-1 at 0.1 A g-1 over 300 cycles, respectively.	co2p	62-66	caspase recruitment domain family member 16	Homo sapiens	58-61
33617222-5	2021	In addition, a high-performance CoP@Co2P//AC LIC is successfully constructed, which can achieve high energy densities of 166.2 and 36 W h kg-1 at power densities of 175 and 17524 W kg-1 (83.7% capacity retention after 12000 cycles).	co2p	36-40	caspase recruitment domain family member 16	Homo sapiens	32-35
33279692-0	2021	Integrating Ru-modulated CoP nanosheets binary co-catalyst with 2D g-C3N4 nanosheets for enhanced photocatalytic hydrogen evolution activity.	Hydrogen	113-121	caspase recruitment domain family member 16	Homo sapiens	25-28
33279692-2	2021	Herein, we report a 2D/2D Ru-modulated CoP nanosheets (Ru-CoP-x, where x refers the Ru-to-Co molar ratio)/g-C3N4 nanosheets (GCN NSs) ternary hybrid as a photocatalyst for hydrogen evolution under visible light.	Hydrogen	172-180	caspase recruitment domain family member 16	Homo sapiens	39-42
33279692-3	2021	The optimal photocatalyst 25% Ru-CoP-1:8/GCN NSs exhibits an excellent hydrogen evolution rate of 1172.5 micromol g-1 h-1 under visible light with a high apparent quantum efficiency (AQE) of 3.49% at 420 nm, which is close to Pt/g-C3N4 photocatalytic system and higher than most reported transition metal phosphides (TMP)/g-C3N4 photocatalytic system.	gcn	41-44	caspase recruitment domain family member 16	Homo sapiens	33-38
33279692-3	2021	The optimal photocatalyst 25% Ru-CoP-1:8/GCN NSs exhibits an excellent hydrogen evolution rate of 1172.5 micromol g-1 h-1 under visible light with a high apparent quantum efficiency (AQE) of 3.49% at 420 nm, which is close to Pt/g-C3N4 photocatalytic system and higher than most reported transition metal phosphides (TMP)/g-C3N4 photocatalytic system.	Hydrogen	71-79	caspase recruitment domain family member 16	Homo sapiens	33-38
33279692-3	2021	The optimal photocatalyst 25% Ru-CoP-1:8/GCN NSs exhibits an excellent hydrogen evolution rate of 1172.5 micromol g-1 h-1 under visible light with a high apparent quantum efficiency (AQE) of 3.49% at 420 nm, which is close to Pt/g-C3N4 photocatalytic system and higher than most reported transition metal phosphides (TMP)/g-C3N4 photocatalytic system.	Platinum	226-228	caspase recruitment domain family member 16	Homo sapiens	33-38
33279692-3	2021	The optimal photocatalyst 25% Ru-CoP-1:8/GCN NSs exhibits an excellent hydrogen evolution rate of 1172.5 micromol g-1 h-1 under visible light with a high apparent quantum efficiency (AQE) of 3.49% at 420 nm, which is close to Pt/g-C3N4 photocatalytic system and higher than most reported transition metal phosphides (TMP)/g-C3N4 photocatalytic system.	c3n4	231-235	caspase recruitment domain family member 16	Homo sapiens	33-38
33279692-3	2021	The optimal photocatalyst 25% Ru-CoP-1:8/GCN NSs exhibits an excellent hydrogen evolution rate of 1172.5 micromol g-1 h-1 under visible light with a high apparent quantum efficiency (AQE) of 3.49% at 420 nm, which is close to Pt/g-C3N4 photocatalytic system and higher than most reported transition metal phosphides (TMP)/g-C3N4 photocatalytic system.	metal phosphides	299-315	caspase recruitment domain family member 16	Homo sapiens	33-38
33279692-3	2021	The optimal photocatalyst 25% Ru-CoP-1:8/GCN NSs exhibits an excellent hydrogen evolution rate of 1172.5 micromol g-1 h-1 under visible light with a high apparent quantum efficiency (AQE) of 3.49% at 420 nm, which is close to Pt/g-C3N4 photocatalytic system and higher than most reported transition metal phosphides (TMP)/g-C3N4 photocatalytic system.	tmp	317-320	caspase recruitment domain family member 16	Homo sapiens	33-38
33279692-3	2021	The optimal photocatalyst 25% Ru-CoP-1:8/GCN NSs exhibits an excellent hydrogen evolution rate of 1172.5 micromol g-1 h-1 under visible light with a high apparent quantum efficiency (AQE) of 3.49% at 420 nm, which is close to Pt/g-C3N4 photocatalytic system and higher than most reported transition metal phosphides (TMP)/g-C3N4 photocatalytic system.	c3n4	324-328	caspase recruitment domain family member 16	Homo sapiens	33-38
33279692-4	2021	Experimental results indicate that the higher photocatalytic hydrogen evolution performance can be mainly attributed to the binary Ru-CoP-x co-catalyst with efficient charge separation and promoted surface water reduction kinetics, and the 2D/2D self-assembly structure with strong interface Schottky effect and short charge transport distance.	Hydrogen	61-69	caspase recruitment domain family member 16	Homo sapiens	134-137
33279692-4	2021	Experimental results indicate that the higher photocatalytic hydrogen evolution performance can be mainly attributed to the binary Ru-CoP-x co-catalyst with efficient charge separation and promoted surface water reduction kinetics, and the 2D/2D self-assembly structure with strong interface Schottky effect and short charge transport distance.	Water	206-211	caspase recruitment domain family member 16	Homo sapiens	134-137
33900574-5	2022	COP with its outstanding characteristics among many polymers was chosen.	Polymers	52-60	caspase recruitment domain family member 16	Homo sapiens	0-3
33918288-9	2021	Our results showed that MT-FE was more effective on COP, LOS, BBS, FRT and 10 m walk test in patients with chronic stroke.	mt-fe	24-29	caspase recruitment domain family member 16	Homo sapiens	52-55
33734506-5	2021	In addition to the metal oxide, a wide variety of metal sulfides, nitrides, and phosphides (e.g., CoS, CoN, and CoP) can be exploited as the heaters to yield high-performance BiVO4 -based photoanodes.	metal sulfides	50-64	caspase recruitment domain family member 16	Homo sapiens	112-115
33734506-5	2021	In addition to the metal oxide, a wide variety of metal sulfides, nitrides, and phosphides (e.g., CoS, CoN, and CoP) can be exploited as the heaters to yield high-performance BiVO4 -based photoanodes.	phosphides	80-90	caspase recruitment domain family member 16	Homo sapiens	112-115
33734506-5	2021	In addition to the metal oxide, a wide variety of metal sulfides, nitrides, and phosphides (e.g., CoS, CoN, and CoP) can be exploited as the heaters to yield high-performance BiVO4 -based photoanodes.	bivo4 -based photoanodes	175-199	caspase recruitment domain family member 16	Homo sapiens	112-115
33866825-1	2021	BACKGROUND: Carbon monoxide poisoning (COP) is an important public health issue around the world.	Carbon Monoxide	12-27	caspase recruitment domain family member 16	Homo sapiens	39-42
33733600-6	2021	Experimental characterizations and DFT calculations demonstrate that the strong electronic interaction at the heterointerface of CoNiP/CoP is achieved via the electron transfer from CoNiP to the heterointerface, which directly promotes the dissociation of water at heterointerface and desorption of hydrogen on CoNiP.	Water	256-261	caspase recruitment domain family member 16	Homo sapiens	135-138
33733600-6	2021	Experimental characterizations and DFT calculations demonstrate that the strong electronic interaction at the heterointerface of CoNiP/CoP is achieved via the electron transfer from CoNiP to the heterointerface, which directly promotes the dissociation of water at heterointerface and desorption of hydrogen on CoNiP.	Hydrogen	299-307	caspase recruitment domain family member 16	Homo sapiens	135-138
33438321-0	2021	Single atom Ru doped CoP/CDs Nanosheets via Splicing of Carbon-Dots for Robust Hydrogen Production.	Carbon	56-62	caspase recruitment domain family member 16	Homo sapiens	21-24
33438321-0	2021	Single atom Ru doped CoP/CDs Nanosheets via Splicing of Carbon-Dots for Robust Hydrogen Production.	Hydrogen	79-87	caspase recruitment domain family member 16	Homo sapiens	21-24
33438321-3	2021	Small CD fragments bore abundant functional groups, analogous to pieces of a jigsaw puzzle, and could provide a high density of binding sites to immobilize Ru 1 CoP.	Cadmium	6-8	caspase recruitment domain family member 16	Homo sapiens	161-164
33438321-5	2021	The Ru 1 CoP/CDs formed from doping atomic Ru dispersed on CoP showed very high efficiency for the hydrogen evolution reaction (HER) over a wide pH range.	cds	13-16	caspase recruitment domain family member 16	Homo sapiens	9-12
33438321-5	2021	The Ru 1 CoP/CDs formed from doping atomic Ru dispersed on CoP showed very high efficiency for the hydrogen evolution reaction (HER) over a wide pH range.	cds	13-16	caspase recruitment domain family member 16	Homo sapiens	59-62
33438321-5	2021	The Ru 1 CoP/CDs formed from doping atomic Ru dispersed on CoP showed very high efficiency for the hydrogen evolution reaction (HER) over a wide pH range.	Hydrogen	99-107	caspase recruitment domain family member 16	Homo sapiens	9-12
33438321-5	2021	The Ru 1 CoP/CDs formed from doping atomic Ru dispersed on CoP showed very high efficiency for the hydrogen evolution reaction (HER) over a wide pH range.	Hydrogen	99-107	caspase recruitment domain family member 16	Homo sapiens	59-62
33484489-0	2021	Interface Engineering of Needle-Like P-Doped MoS2/CoP Arrays as Highly Active and Durable Bifunctional Electrocatalyst for Overall Water Splitting.	Water	131-136	caspase recruitment domain family member 16	Homo sapiens	50-53
33146935-3	2021	We could now synthesize 2-N(CH3)2-functionalized phosphinines, starting from a 3-N(CH3)2-substituted 2-pyrone and (CH3)3Si-CoP.	2-n(ch3)2	24-33	caspase recruitment domain family member 16	Homo sapiens	123-126
33146935-3	2021	We could now synthesize 2-N(CH3)2-functionalized phosphinines, starting from a 3-N(CH3)2-substituted 2-pyrone and (CH3)3Si-CoP.	phosphinine	49-61	caspase recruitment domain family member 16	Homo sapiens	123-126
33369250-0	2021	Hierarchical CoP nanostructures on nickel foam as efficient bifunctional catalysts for water splitting.	Water	87-92	caspase recruitment domain family member 16	Homo sapiens	13-16
33369250-6	2021	The results reported in this paper show that CoP/NF, a layered bifunctional electrocatalyst, is a cost-effective and efficient water splitting electrode.	Water	127-132	caspase recruitment domain family member 16	Homo sapiens	45-48
33313626-0	2020	Electrospun hetero-CoP/FeP embedded in porous carbon nanofibers: enhanced Na+ kinetics and specific capacity.	Carbon	46-52	caspase recruitment domain family member 16	Homo sapiens	19-22
33449065-0	2021	First-principles investigation of the hydrogen evolution reaction of transition metal phosphides CrP, MnP, FeP, CoP, and NiP.	Hydrogen	38-46	caspase recruitment domain family member 16	Homo sapiens	112-115
32947097-0	2021	Scanty graphene-driven phase control and heteroatom functionalization of ZIF-67-derived CoP-draped N-doped carbon/graphene as a hybrid electrode for high-performance asymmetric supercapacitor.	Graphite	7-15	caspase recruitment domain family member 16	Homo sapiens	88-91
32947097-0	2021	Scanty graphene-driven phase control and heteroatom functionalization of ZIF-67-derived CoP-draped N-doped carbon/graphene as a hybrid electrode for high-performance asymmetric supercapacitor.	n-doped	99-106	caspase recruitment domain family member 16	Homo sapiens	88-91
32947097-0	2021	Scanty graphene-driven phase control and heteroatom functionalization of ZIF-67-derived CoP-draped N-doped carbon/graphene as a hybrid electrode for high-performance asymmetric supercapacitor.	Carbon	107-113	caspase recruitment domain family member 16	Homo sapiens	88-91
32947097-0	2021	Scanty graphene-driven phase control and heteroatom functionalization of ZIF-67-derived CoP-draped N-doped carbon/graphene as a hybrid electrode for high-performance asymmetric supercapacitor.	Graphite	114-122	caspase recruitment domain family member 16	Homo sapiens	88-91
32947097-4	2021	Excellent performance of the CoP-NPC/GS was derived from scanty graphene (2 wt%)-driven compositional variation, which promotes the redox-active CoP phase and higher nitrogen content offering enhanced electronic conductivity.	Graphite	64-72	caspase recruitment domain family member 16	Homo sapiens	29-32
32947097-4	2021	Excellent performance of the CoP-NPC/GS was derived from scanty graphene (2 wt%)-driven compositional variation, which promotes the redox-active CoP phase and higher nitrogen content offering enhanced electronic conductivity.	Graphite	64-72	caspase recruitment domain family member 16	Homo sapiens	145-148
32947097-4	2021	Excellent performance of the CoP-NPC/GS was derived from scanty graphene (2 wt%)-driven compositional variation, which promotes the redox-active CoP phase and higher nitrogen content offering enhanced electronic conductivity.	Nitrogen	166-174	caspase recruitment domain family member 16	Homo sapiens	29-32
33313626-3	2020	Herein, hetero-CoP/FeP nanoparticles embedded in porous carbon nanofibers (CoP/FeP@PCNFs) are obtained by coaxial electrospinning and low-temperature phosphorization processes.	Carbon	56-62	caspase recruitment domain family member 16	Homo sapiens	75-78
33313626-4	2020	By employing CoP/FeP@PCNFs as the anode for sodium-ion batteries, a large reversible specific capacity (459 mA h g-1 at 0.05 A g-1), excellent rate performance (46.4% capacity retention rate at 10 A g-1 relative to 0.05 A g-1) and long-term cycling stability (208 mA h g-1 at 5 A g-1 over 1000 cycles and 73.5% capacity retention) can be obtained.	Sodium	44-50	caspase recruitment domain family member 16	Homo sapiens	13-16
33094921-2	2020	Herein, inspired by natural photosynthesis, an all-solid-state Z-scheme photocatalyst is constructed with Cd 0.9 Zn 0.1 S (CZS) for water reduction, red phosphorus (RP) for water oxidation, and metallic CoP as the electron mediator.	Cadmium	106-108	caspase recruitment domain family member 16	Homo sapiens	203-206
33094921-2	2020	Herein, inspired by natural photosynthesis, an all-solid-state Z-scheme photocatalyst is constructed with Cd 0.9 Zn 0.1 S (CZS) for water reduction, red phosphorus (RP) for water oxidation, and metallic CoP as the electron mediator.	czs	123-126	caspase recruitment domain family member 16	Homo sapiens	203-206
33094921-3	2020	RP@CoP core-shell nanostructures were uniformly attached on the CZS nanorods, which gave rise to multiple monodispersed nanojunctions.	czs	64-67	caspase recruitment domain family member 16	Homo sapiens	3-6
33094921-5	2020	Theoretical analysis and femtosecond transient absorption result reveal that the impressive performance is mainly due to efficient hole transfer of CZS, resulting from the intimate atomic contacts between CoP mediator and photocatalysts, together with favorable band alignment.	femtosecond	25-36	caspase recruitment domain family member 16	Homo sapiens	205-208
33094921-5	2020	Theoretical analysis and femtosecond transient absorption result reveal that the impressive performance is mainly due to efficient hole transfer of CZS, resulting from the intimate atomic contacts between CoP mediator and photocatalysts, together with favorable band alignment.	czs	148-151	caspase recruitment domain family member 16	Homo sapiens	205-208
32672932-3	2020	Herein, a multiregion Janus-featured CoP-Co structure obtained via sequential carbonization-oxidation-phosphidation of hetero-seed zeolitic imidazolate frameworks is introduced.	imidazolate	140-151	caspase recruitment domain family member 16	Homo sapiens	37-40
33100248-0	2020	Effectiveness of steroid treatment for SARS-CoV-2 pneumonia with COP-like reaction: a case report.	Steroids	17-24	caspase recruitment domain family member 16	Homo sapiens	65-68
33195109-0	2020	V-Doped CoP Nanosheet Arrays as Highly Efficient Electrocatalysts for Hydrogen Evolution Reaction in Both Acidic and Alkaline Solutions.	Hydrogen	70-78	caspase recruitment domain family member 16	Homo sapiens	8-11
33195109-2	2020	In this work, V-doped CoP nanosheet arrays supported on the carbon cloth (V-CoP/CC) are fabricated though a facile water-bath/phosphorization method.	Carbon	60-66	caspase recruitment domain family member 16	Homo sapiens	22-25
33195109-2	2020	In this work, V-doped CoP nanosheet arrays supported on the carbon cloth (V-CoP/CC) are fabricated though a facile water-bath/phosphorization method.	Carbon	60-66	caspase recruitment domain family member 16	Homo sapiens	76-79
33195109-2	2020	In this work, V-doped CoP nanosheet arrays supported on the carbon cloth (V-CoP/CC) are fabricated though a facile water-bath/phosphorization method.	Water	115-120	caspase recruitment domain family member 16	Homo sapiens	22-25
33195109-5	2020	Consequently, the V-CoP/CC electrode exhibits excellent electrocatalytic activities toward HER in both 0.5 M H2SO4 and 1 M KOH solutions with small overpotentials of 88 and 98 mV at a current density of 10 mA cm-2, respectively.	sulfuric acid	109-114	caspase recruitment domain family member 16	Homo sapiens	20-23
33195109-5	2020	Consequently, the V-CoP/CC electrode exhibits excellent electrocatalytic activities toward HER in both 0.5 M H2SO4 and 1 M KOH solutions with small overpotentials of 88 and 98 mV at a current density of 10 mA cm-2, respectively.	potassium hydroxide	123-126	caspase recruitment domain family member 16	Homo sapiens	20-23
32505912-3	2020	Here, we successfully synthesize the CoP@Ni(OH)2 0.75H2O core-shell nanosheets structure on carbon cloth.	oh)2 0.75h2o	44-56	caspase recruitment domain family member 16	Homo sapiens	37-40
32505912-3	2020	Here, we successfully synthesize the CoP@Ni(OH)2 0.75H2O core-shell nanosheets structure on carbon cloth.	Carbon	92-98	caspase recruitment domain family member 16	Homo sapiens	37-40
32505912-5	2020	As a result, the as-prepared CoP@Ni(OH)2 0.75H2O nanosheet arrays electrode presents an outstanding specific capacity of 168.61 mAh g-1 at 1 A g-1.	ni(oh)2 0.75h2o	33-48	caspase recruitment domain family member 16	Homo sapiens	29-32
32505912-6	2020	The assembled asymmetric supercapacitor (ASC) of CoP@Ni(OH)2 0.75H2O//activated carbon displays the highest energy density of 33.78 W h kg-1 at 800 W kg-1, as well as the remarkable cycling stability (capacitance retention of 98.5% after 10,000 cycles).	Carbon	80-86	caspase recruitment domain family member 16	Homo sapiens	49-52
32889396-7	2020	Furthermore, we show that by coupling the developed biocathode with a BiVO4/CoP photoanode, a power output of 25 muW/cm2 can be achieved.	bismuth vanadium tetraoxide	70-75	caspase recruitment domain family member 16	Homo sapiens	76-79
32497918-4	2020	A remarkable specific capacity of 205 mAh g-1 can be achieved at 1 A g-1, and the optimized Ni1-Co2-P/C (referred to as NiCoP/CoP/C) still holds a superior rate capability with a capacity retention of 71% even at 50 A g-1.	Carbon Dioxide	96-99	caspase recruitment domain family member 16	Homo sapiens	122-125
32497919-0	2020	Contrallable synthesis of peony-like porous Mn-CoP nanorod electrocatalyst for highly efficient hydrogen evolution in acid and alkaline.	Hydrogen	96-104	caspase recruitment domain family member 16	Homo sapiens	47-50
32497919-2	2020	Here, we design and fabricate a highly efficient electrocatalyst with unique three-dimensional (3D) porous peony-like micro-flower Mn-CoP nano-structure on flexible carbon cloth (Mn-CoP PMFs/CC), which exhibits high electrocatalytic activity toward the HER in both acid and alkaline circumstances.	Carbon	165-171	caspase recruitment domain family member 16	Homo sapiens	134-137
32497919-2	2020	Here, we design and fabricate a highly efficient electrocatalyst with unique three-dimensional (3D) porous peony-like micro-flower Mn-CoP nano-structure on flexible carbon cloth (Mn-CoP PMFs/CC), which exhibits high electrocatalytic activity toward the HER in both acid and alkaline circumstances.	Carbon	165-171	caspase recruitment domain family member 16	Homo sapiens	182-185
32497919-5	2020	Density Functional Theory (DFT) calculations illustrate that Mn doping indeed improve electron transfer, and makes the thermo-neutral hydrogen adsorption free energy (DeltaGH*) of CoP on the surface of (0 1 1) sharply close to zero, which is very conducive to the adsorption and desorption of hydrogen, thereby making Mn-CoP PMFs/CC with significant enhanced electrocatalytic HER performance.	Hydrogen	134-142	caspase recruitment domain family member 16	Homo sapiens	180-183
32497919-5	2020	Density Functional Theory (DFT) calculations illustrate that Mn doping indeed improve electron transfer, and makes the thermo-neutral hydrogen adsorption free energy (DeltaGH*) of CoP on the surface of (0 1 1) sharply close to zero, which is very conducive to the adsorption and desorption of hydrogen, thereby making Mn-CoP PMFs/CC with significant enhanced electrocatalytic HER performance.	Hydrogen	293-301	caspase recruitment domain family member 16	Homo sapiens	180-183
32926059-2	2020	In this work, the ZIF-67-derived CoP quantum dot (QD) anchored graphitized carbon skeleton as a co-catalyst is loaded on CdS nanorods (NRs), while the CoP QDs derived from ZIF-67 are anchored to the carbon skeleton under phosphation and carbonization simultaneously.	Carbon	75-81	caspase recruitment domain family member 16	Homo sapiens	33-36
32926059-2	2020	In this work, the ZIF-67-derived CoP quantum dot (QD) anchored graphitized carbon skeleton as a co-catalyst is loaded on CdS nanorods (NRs), while the CoP QDs derived from ZIF-67 are anchored to the carbon skeleton under phosphation and carbonization simultaneously.	Carbon	75-81	caspase recruitment domain family member 16	Homo sapiens	151-154
32926059-2	2020	In this work, the ZIF-67-derived CoP quantum dot (QD) anchored graphitized carbon skeleton as a co-catalyst is loaded on CdS nanorods (NRs), while the CoP QDs derived from ZIF-67 are anchored to the carbon skeleton under phosphation and carbonization simultaneously.	Cadmium	121-124	caspase recruitment domain family member 16	Homo sapiens	33-36
32926059-2	2020	In this work, the ZIF-67-derived CoP quantum dot (QD) anchored graphitized carbon skeleton as a co-catalyst is loaded on CdS nanorods (NRs), while the CoP QDs derived from ZIF-67 are anchored to the carbon skeleton under phosphation and carbonization simultaneously.	Carbon	199-205	caspase recruitment domain family member 16	Homo sapiens	33-36
32926059-3	2020	The porous, graphitized carbon skeleton can not only disperse CoP QDs, increasing active sites for the hydrogen reduction reaction, but also provide electron transfer channels, promoting electron transfer and increasing conductivity.	Carbon	24-30	caspase recruitment domain family member 16	Homo sapiens	62-65
32926059-3	2020	The porous, graphitized carbon skeleton can not only disperse CoP QDs, increasing active sites for the hydrogen reduction reaction, but also provide electron transfer channels, promoting electron transfer and increasing conductivity.	Hydrogen	103-111	caspase recruitment domain family member 16	Homo sapiens	62-65
32897698-0	2020	Enhancing Adsorption and Reaction Kinetics of Polysulfides by CoP Coated N-doped Mesoporous Carbon for High-Energy-Density Lithium-Sulfur Batteries.	polysulfide	46-58	caspase recruitment domain family member 16	Homo sapiens	62-65
32897698-0	2020	Enhancing Adsorption and Reaction Kinetics of Polysulfides by CoP Coated N-doped Mesoporous Carbon for High-Energy-Density Lithium-Sulfur Batteries.	n-doped	73-80	caspase recruitment domain family member 16	Homo sapiens	62-65
32897698-0	2020	Enhancing Adsorption and Reaction Kinetics of Polysulfides by CoP Coated N-doped Mesoporous Carbon for High-Energy-Density Lithium-Sulfur Batteries.	Methane	81-98	caspase recruitment domain family member 16	Homo sapiens	62-65
32897698-0	2020	Enhancing Adsorption and Reaction Kinetics of Polysulfides by CoP Coated N-doped Mesoporous Carbon for High-Energy-Density Lithium-Sulfur Batteries.	Lithium	123-130	caspase recruitment domain family member 16	Homo sapiens	62-65
32897698-0	2020	Enhancing Adsorption and Reaction Kinetics of Polysulfides by CoP Coated N-doped Mesoporous Carbon for High-Energy-Density Lithium-Sulfur Batteries.	Sulfur	131-137	caspase recruitment domain family member 16	Homo sapiens	62-65
32897698-3	2020	Herein, CoP nanoparticles coated with metal-organic framework derived N-doped mesoporous carbon (CoP@N-C) composites are synthesized and applied in both cathodes for sulfur host and modified layer on separators for high-energy-density Li-S batteries since the CoP component has strong chemical anchoring capability toward soluble polysulfides and high electrochemical activity toward polysulfides transformation.	Metals	38-43	caspase recruitment domain family member 16	Homo sapiens	8-11
32897698-3	2020	Herein, CoP nanoparticles coated with metal-organic framework derived N-doped mesoporous carbon (CoP@N-C) composites are synthesized and applied in both cathodes for sulfur host and modified layer on separators for high-energy-density Li-S batteries since the CoP component has strong chemical anchoring capability toward soluble polysulfides and high electrochemical activity toward polysulfides transformation.	Metals	38-43	caspase recruitment domain family member 16	Homo sapiens	97-100
32897698-3	2020	Herein, CoP nanoparticles coated with metal-organic framework derived N-doped mesoporous carbon (CoP@N-C) composites are synthesized and applied in both cathodes for sulfur host and modified layer on separators for high-energy-density Li-S batteries since the CoP component has strong chemical anchoring capability toward soluble polysulfides and high electrochemical activity toward polysulfides transformation.	Metals	38-43	caspase recruitment domain family member 16	Homo sapiens	97-100
32897698-3	2020	Herein, CoP nanoparticles coated with metal-organic framework derived N-doped mesoporous carbon (CoP@N-C) composites are synthesized and applied in both cathodes for sulfur host and modified layer on separators for high-energy-density Li-S batteries since the CoP component has strong chemical anchoring capability toward soluble polysulfides and high electrochemical activity toward polysulfides transformation.	n-doped mesoporous carbon	70-95	caspase recruitment domain family member 16	Homo sapiens	8-11
32897698-3	2020	Herein, CoP nanoparticles coated with metal-organic framework derived N-doped mesoporous carbon (CoP@N-C) composites are synthesized and applied in both cathodes for sulfur host and modified layer on separators for high-energy-density Li-S batteries since the CoP component has strong chemical anchoring capability toward soluble polysulfides and high electrochemical activity toward polysulfides transformation.	n-doped mesoporous carbon	70-95	caspase recruitment domain family member 16	Homo sapiens	97-100
32897698-3	2020	Herein, CoP nanoparticles coated with metal-organic framework derived N-doped mesoporous carbon (CoP@N-C) composites are synthesized and applied in both cathodes for sulfur host and modified layer on separators for high-energy-density Li-S batteries since the CoP component has strong chemical anchoring capability toward soluble polysulfides and high electrochemical activity toward polysulfides transformation.	n-doped mesoporous carbon	70-95	caspase recruitment domain family member 16	Homo sapiens	97-100
32897698-3	2020	Herein, CoP nanoparticles coated with metal-organic framework derived N-doped mesoporous carbon (CoP@N-C) composites are synthesized and applied in both cathodes for sulfur host and modified layer on separators for high-energy-density Li-S batteries since the CoP component has strong chemical anchoring capability toward soluble polysulfides and high electrochemical activity toward polysulfides transformation.	Nitrogen	70-71	caspase recruitment domain family member 16	Homo sapiens	8-11
32897698-3	2020	Herein, CoP nanoparticles coated with metal-organic framework derived N-doped mesoporous carbon (CoP@N-C) composites are synthesized and applied in both cathodes for sulfur host and modified layer on separators for high-energy-density Li-S batteries since the CoP component has strong chemical anchoring capability toward soluble polysulfides and high electrochemical activity toward polysulfides transformation.	Nitrogen	70-71	caspase recruitment domain family member 16	Homo sapiens	97-100
32897698-3	2020	Herein, CoP nanoparticles coated with metal-organic framework derived N-doped mesoporous carbon (CoP@N-C) composites are synthesized and applied in both cathodes for sulfur host and modified layer on separators for high-energy-density Li-S batteries since the CoP component has strong chemical anchoring capability toward soluble polysulfides and high electrochemical activity toward polysulfides transformation.	Nitrogen	70-71	caspase recruitment domain family member 16	Homo sapiens	97-100
32897698-3	2020	Herein, CoP nanoparticles coated with metal-organic framework derived N-doped mesoporous carbon (CoP@N-C) composites are synthesized and applied in both cathodes for sulfur host and modified layer on separators for high-energy-density Li-S batteries since the CoP component has strong chemical anchoring capability toward soluble polysulfides and high electrochemical activity toward polysulfides transformation.	Sulfur	166-172	caspase recruitment domain family member 16	Homo sapiens	8-11
32897698-3	2020	Herein, CoP nanoparticles coated with metal-organic framework derived N-doped mesoporous carbon (CoP@N-C) composites are synthesized and applied in both cathodes for sulfur host and modified layer on separators for high-energy-density Li-S batteries since the CoP component has strong chemical anchoring capability toward soluble polysulfides and high electrochemical activity toward polysulfides transformation.	Sulfur	166-172	caspase recruitment domain family member 16	Homo sapiens	97-100
32897698-3	2020	Herein, CoP nanoparticles coated with metal-organic framework derived N-doped mesoporous carbon (CoP@N-C) composites are synthesized and applied in both cathodes for sulfur host and modified layer on separators for high-energy-density Li-S batteries since the CoP component has strong chemical anchoring capability toward soluble polysulfides and high electrochemical activity toward polysulfides transformation.	Sulfur	166-172	caspase recruitment domain family member 16	Homo sapiens	97-100
32897698-3	2020	Herein, CoP nanoparticles coated with metal-organic framework derived N-doped mesoporous carbon (CoP@N-C) composites are synthesized and applied in both cathodes for sulfur host and modified layer on separators for high-energy-density Li-S batteries since the CoP component has strong chemical anchoring capability toward soluble polysulfides and high electrochemical activity toward polysulfides transformation.	li-s	235-239	caspase recruitment domain family member 16	Homo sapiens	8-11
32897698-3	2020	Herein, CoP nanoparticles coated with metal-organic framework derived N-doped mesoporous carbon (CoP@N-C) composites are synthesized and applied in both cathodes for sulfur host and modified layer on separators for high-energy-density Li-S batteries since the CoP component has strong chemical anchoring capability toward soluble polysulfides and high electrochemical activity toward polysulfides transformation.	li-s	235-239	caspase recruitment domain family member 16	Homo sapiens	97-100
32897698-3	2020	Herein, CoP nanoparticles coated with metal-organic framework derived N-doped mesoporous carbon (CoP@N-C) composites are synthesized and applied in both cathodes for sulfur host and modified layer on separators for high-energy-density Li-S batteries since the CoP component has strong chemical anchoring capability toward soluble polysulfides and high electrochemical activity toward polysulfides transformation.	li-s	235-239	caspase recruitment domain family member 16	Homo sapiens	97-100
32897698-3	2020	Herein, CoP nanoparticles coated with metal-organic framework derived N-doped mesoporous carbon (CoP@N-C) composites are synthesized and applied in both cathodes for sulfur host and modified layer on separators for high-energy-density Li-S batteries since the CoP component has strong chemical anchoring capability toward soluble polysulfides and high electrochemical activity toward polysulfides transformation.	polysulfide	330-342	caspase recruitment domain family member 16	Homo sapiens	8-11
32897698-3	2020	Herein, CoP nanoparticles coated with metal-organic framework derived N-doped mesoporous carbon (CoP@N-C) composites are synthesized and applied in both cathodes for sulfur host and modified layer on separators for high-energy-density Li-S batteries since the CoP component has strong chemical anchoring capability toward soluble polysulfides and high electrochemical activity toward polysulfides transformation.	polysulfide	330-342	caspase recruitment domain family member 16	Homo sapiens	97-100
32897698-3	2020	Herein, CoP nanoparticles coated with metal-organic framework derived N-doped mesoporous carbon (CoP@N-C) composites are synthesized and applied in both cathodes for sulfur host and modified layer on separators for high-energy-density Li-S batteries since the CoP component has strong chemical anchoring capability toward soluble polysulfides and high electrochemical activity toward polysulfides transformation.	polysulfide	330-342	caspase recruitment domain family member 16	Homo sapiens	97-100
32897698-3	2020	Herein, CoP nanoparticles coated with metal-organic framework derived N-doped mesoporous carbon (CoP@N-C) composites are synthesized and applied in both cathodes for sulfur host and modified layer on separators for high-energy-density Li-S batteries since the CoP component has strong chemical anchoring capability toward soluble polysulfides and high electrochemical activity toward polysulfides transformation.	polysulfide	384-396	caspase recruitment domain family member 16	Homo sapiens	8-11
32897698-3	2020	Herein, CoP nanoparticles coated with metal-organic framework derived N-doped mesoporous carbon (CoP@N-C) composites are synthesized and applied in both cathodes for sulfur host and modified layer on separators for high-energy-density Li-S batteries since the CoP component has strong chemical anchoring capability toward soluble polysulfides and high electrochemical activity toward polysulfides transformation.	polysulfide	384-396	caspase recruitment domain family member 16	Homo sapiens	97-100
32897698-3	2020	Herein, CoP nanoparticles coated with metal-organic framework derived N-doped mesoporous carbon (CoP@N-C) composites are synthesized and applied in both cathodes for sulfur host and modified layer on separators for high-energy-density Li-S batteries since the CoP component has strong chemical anchoring capability toward soluble polysulfides and high electrochemical activity toward polysulfides transformation.	polysulfide	384-396	caspase recruitment domain family member 16	Homo sapiens	97-100
32813510-0	2020	Template Construction of Porous CoP/COP2 Microflowers Threaded with Carbon Nanotubes toward High-Efficiency Oxygen Evolution and Hydrogen Evolution Electrocatalysts.	Carbon	68-74	caspase recruitment domain family member 16	Homo sapiens	32-35
32813510-0	2020	Template Construction of Porous CoP/COP2 Microflowers Threaded with Carbon Nanotubes toward High-Efficiency Oxygen Evolution and Hydrogen Evolution Electrocatalysts.	Oxygen	108-114	caspase recruitment domain family member 16	Homo sapiens	32-35
32813510-0	2020	Template Construction of Porous CoP/COP2 Microflowers Threaded with Carbon Nanotubes toward High-Efficiency Oxygen Evolution and Hydrogen Evolution Electrocatalysts.	Hydrogen	129-137	caspase recruitment domain family member 16	Homo sapiens	32-35
32813510-2	2020	Herein, we demonstrate a novel cobaltic-formate frameworks (Co-FFs)-induced strategy to obtain porous flowerlike CoP/CoP2 composite threaded with carbon nanotubes (CoP/CoP2/CNTs).	cobaltic	31-39	caspase recruitment domain family member 16	Homo sapiens	113-116
32813510-2	2020	Herein, we demonstrate a novel cobaltic-formate frameworks (Co-FFs)-induced strategy to obtain porous flowerlike CoP/CoP2 composite threaded with carbon nanotubes (CoP/CoP2/CNTs).	cobaltic	31-39	caspase recruitment domain family member 16	Homo sapiens	117-120
32813510-2	2020	Herein, we demonstrate a novel cobaltic-formate frameworks (Co-FFs)-induced strategy to obtain porous flowerlike CoP/CoP2 composite threaded with carbon nanotubes (CoP/CoP2/CNTs).	formic acid	40-47	caspase recruitment domain family member 16	Homo sapiens	113-116
32813510-2	2020	Herein, we demonstrate a novel cobaltic-formate frameworks (Co-FFs)-induced strategy to obtain porous flowerlike CoP/CoP2 composite threaded with carbon nanotubes (CoP/CoP2/CNTs).	formic acid	40-47	caspase recruitment domain family member 16	Homo sapiens	117-120
32672932-5	2020	Thus, the S@CoP-Co/NCNHC cathode exhibits superior electrochemical performance (448 mAh g-1 remained for 700 times cycling under 1 A g-1) and an optimized redox mechanism in sulfur conversion.	Sulfur	174-180	caspase recruitment domain family member 16	Homo sapiens	12-15
32672932-6	2020	Density functional theory calculations present that the CoP-Co structure optimizes bond structure and bandwidth, whereas the pure CoP is lower than the corresponding Fermi level, which could essentially benefit the adsorptive capability and charge transfer from CoP-Co surface to Na2Sx and therefore improve its affinity to polysulfides.	na2sx	280-285	caspase recruitment domain family member 16	Homo sapiens	56-59
32672932-6	2020	Density functional theory calculations present that the CoP-Co structure optimizes bond structure and bandwidth, whereas the pure CoP is lower than the corresponding Fermi level, which could essentially benefit the adsorptive capability and charge transfer from CoP-Co surface to Na2Sx and therefore improve its affinity to polysulfides.	na2sx	280-285	caspase recruitment domain family member 16	Homo sapiens	130-133
32672932-6	2020	Density functional theory calculations present that the CoP-Co structure optimizes bond structure and bandwidth, whereas the pure CoP is lower than the corresponding Fermi level, which could essentially benefit the adsorptive capability and charge transfer from CoP-Co surface to Na2Sx and therefore improve its affinity to polysulfides.	na2sx	280-285	caspase recruitment domain family member 16	Homo sapiens	130-133
32672932-6	2020	Density functional theory calculations present that the CoP-Co structure optimizes bond structure and bandwidth, whereas the pure CoP is lower than the corresponding Fermi level, which could essentially benefit the adsorptive capability and charge transfer from CoP-Co surface to Na2Sx and therefore improve its affinity to polysulfides.	polysulfide	324-336	caspase recruitment domain family member 16	Homo sapiens	56-59
32672932-6	2020	Density functional theory calculations present that the CoP-Co structure optimizes bond structure and bandwidth, whereas the pure CoP is lower than the corresponding Fermi level, which could essentially benefit the adsorptive capability and charge transfer from CoP-Co surface to Na2Sx and therefore improve its affinity to polysulfides.	polysulfide	324-336	caspase recruitment domain family member 16	Homo sapiens	130-133
32672932-6	2020	Density functional theory calculations present that the CoP-Co structure optimizes bond structure and bandwidth, whereas the pure CoP is lower than the corresponding Fermi level, which could essentially benefit the adsorptive capability and charge transfer from CoP-Co surface to Na2Sx and therefore improve its affinity to polysulfides.	polysulfide	324-336	caspase recruitment domain family member 16	Homo sapiens	130-133
32654478-3	2020	By virtue of compositional and structural advantages, the optimized Ni1Co2Px (NiCoP/CoP/CoP2) nanoparticles shows very high mass activity (436.9 mA mg-1) and area-specific activity (155 mA cm-2), as well as remarkable durability toward methanol electrooxidation reaction (MOR) in alkaline solution.	Methanol	236-244	caspase recruitment domain family member 16	Homo sapiens	80-83
32463675-5	2020	Finally, CoP arrays were produced through phosphatization of the prepared Co-based array precursor, using NaH2PO2 H2O as the P source.	nah2po2	106-113	caspase recruitment domain family member 16	Homo sapiens	9-12
32222061-0	2020	Simple 2D/0D CoP Integration in a Metal-Organic Framework-derived Bifunctional Electrocatalyst for Efficient Overall Water Splitting.	Metals	34-39	caspase recruitment domain family member 16	Homo sapiens	13-16
32222061-0	2020	Simple 2D/0D CoP Integration in a Metal-Organic Framework-derived Bifunctional Electrocatalyst for Efficient Overall Water Splitting.	Water	117-122	caspase recruitment domain family member 16	Homo sapiens	13-16
32222061-3	2020	Herein, we developed a simple strategy to integrate 2D/0D CoP in the same MOF precursor-derived hollow N-doped carbon nanotube-assembled polyhedron.	Carbon	111-117	caspase recruitment domain family member 16	Homo sapiens	58-61
32222061-5	2020	Thus, CoP/HNCNP@2D CoP exhibited outstanding OER and HER activity and a low cell voltage when being employed as both the anode and cathode in a two-electrode water electrolyzer.	Water	158-163	caspase recruitment domain family member 16	Homo sapiens	6-9
32605172-6	2020	Upregulations of the OCN, DSPP, and HSP-27 genes were observed in response to the association of COP to MTA, and the DSPP and HSP-27 genes were upregulated in the Ca(OH)2 + COP group.	ca(oh)	163-169	caspase recruitment domain family member 16	Homo sapiens	173-176
32470287-0	2020	CoP/RGO-Pd Hybrids with Heterointerfaces as Highly Active Catalyst for Ethanol Electrooxidation.	Ethanol	71-78	caspase recruitment domain family member 16	Homo sapiens	0-3
32470287-3	2020	Herein, under the support of theoretical calculation that the heterointerfaces between CoP and Pd can reduce the energy barrier of C-C bond cleavage, rich heterointerfaces in CoP/RGO-Pd hybrids were designed to improve ethanol electrooxidation performance through enhancing the selectivity towards C1 pathway.	Carbon	87-88	caspase recruitment domain family member 16	Homo sapiens	175-178
32470287-3	2020	Herein, under the support of theoretical calculation that the heterointerfaces between CoP and Pd can reduce the energy barrier of C-C bond cleavage, rich heterointerfaces in CoP/RGO-Pd hybrids were designed to improve ethanol electrooxidation performance through enhancing the selectivity towards C1 pathway.	Carbon	131-132	caspase recruitment domain family member 16	Homo sapiens	87-90
32470287-3	2020	Herein, under the support of theoretical calculation that the heterointerfaces between CoP and Pd can reduce the energy barrier of C-C bond cleavage, rich heterointerfaces in CoP/RGO-Pd hybrids were designed to improve ethanol electrooxidation performance through enhancing the selectivity towards C1 pathway.	Carbon	131-132	caspase recruitment domain family member 16	Homo sapiens	175-178
32470287-3	2020	Herein, under the support of theoretical calculation that the heterointerfaces between CoP and Pd can reduce the energy barrier of C-C bond cleavage, rich heterointerfaces in CoP/RGO-Pd hybrids were designed to improve ethanol electrooxidation performance through enhancing the selectivity towards C1 pathway.	Ethanol	219-226	caspase recruitment domain family member 16	Homo sapiens	87-90
32470287-3	2020	Herein, under the support of theoretical calculation that the heterointerfaces between CoP and Pd can reduce the energy barrier of C-C bond cleavage, rich heterointerfaces in CoP/RGO-Pd hybrids were designed to improve ethanol electrooxidation performance through enhancing the selectivity towards C1 pathway.	Ethanol	219-226	caspase recruitment domain family member 16	Homo sapiens	175-178
32470287-5	2020	And owing to this enhancement, CoP/RGO-Pd10 exhibits mass activity as high as 4597 mA mgPd-1and specific activity as high as 10 mA cm-2, much higher than other Pd-based electrocatalysts.	Palladium	39-41	caspase recruitment domain family member 16	Homo sapiens	31-34
32463675-0	2020	CoP Microscale Prism-like Superstructure Arrays on Ni Foam as an Efficient Bifunctional Electrocatalyst for Overall Water Splitting.	Water	116-121	caspase recruitment domain family member 16	Homo sapiens	0-3
32463675-2	2020	In this work, we present a controllable structural transformation engineering strategy to construct 3D hierarchical CoP porous microscale prism-like superstructure (assembled with nanoflakes) arrays grown on surface-phosphatized Ni foam (CoP/SPNF).	ni foam	229-236	caspase recruitment domain family member 16	Homo sapiens	116-119
32618988-0	2020	Electronic structural regulation of CoP nanorods by the tunable incorporation of oxygen for enhanced electrocatalytic activity during the hydrogen evolution reaction.	Oxygen	81-87	caspase recruitment domain family member 16	Homo sapiens	36-39
32618988-0	2020	Electronic structural regulation of CoP nanorods by the tunable incorporation of oxygen for enhanced electrocatalytic activity during the hydrogen evolution reaction.	Hydrogen	138-146	caspase recruitment domain family member 16	Homo sapiens	36-39
32618988-5	2020	Typically, the obtained O-CoP nanorods with an optimal oxygen content exhibit excellent HER activity with an overpotential of 116 mV at a current density of 10 mA cm-2 and a small Tafel slope of 59 mV dec-1 in alkaline media.	Oxygen	55-61	caspase recruitment domain family member 16	Homo sapiens	24-29
32662801-0	2020	MOF-derived hierarchical 3D bi-doped CoP nanoflower eletrocatalyst for hydrogen evolution reaction in both acidic and alkaline media.	Hydrogen	71-79	caspase recruitment domain family member 16	Homo sapiens	37-40
32482263-3	2020	The purpose of this study was to gather information regarding current IPE programs and curricula in schools/colleges of pharmacy (S/COP) across the US.	ipe	70-73	caspase recruitment domain family member 16	Homo sapiens	132-135
32482263-13	2020	Building on the successes of others and predicting barriers can assist S/COP in developing effective IPE.	ipe	101-104	caspase recruitment domain family member 16	Homo sapiens	73-76
32463675-5	2020	Finally, CoP arrays were produced through phosphatization of the prepared Co-based array precursor, using NaH2PO2 H2O as the P source.	Water	114-117	caspase recruitment domain family member 16	Homo sapiens	9-12
32463675-6	2020	The fabricated CoP/SPNF electrocatalyst exhibits impressive bifunctional performance for the hydrogen evolution reaction (HER, overpotential of 45 mV at 10 mA cm-2) and oxygen evolution reaction (OER, overpotential of 215 mV at 80 mA cm-2) and consequently enables efficient electrolytic water splitting with a low cell voltage of 1.547 V at 30 mA cm-2 and a prominent durability.	Hydrogen	93-101	caspase recruitment domain family member 16	Homo sapiens	15-18
32463675-6	2020	The fabricated CoP/SPNF electrocatalyst exhibits impressive bifunctional performance for the hydrogen evolution reaction (HER, overpotential of 45 mV at 10 mA cm-2) and oxygen evolution reaction (OER, overpotential of 215 mV at 80 mA cm-2) and consequently enables efficient electrolytic water splitting with a low cell voltage of 1.547 V at 30 mA cm-2 and a prominent durability.	Oxygen	169-175	caspase recruitment domain family member 16	Homo sapiens	15-18
32463675-6	2020	The fabricated CoP/SPNF electrocatalyst exhibits impressive bifunctional performance for the hydrogen evolution reaction (HER, overpotential of 45 mV at 10 mA cm-2) and oxygen evolution reaction (OER, overpotential of 215 mV at 80 mA cm-2) and consequently enables efficient electrolytic water splitting with a low cell voltage of 1.547 V at 30 mA cm-2 and a prominent durability.	Water	288-293	caspase recruitment domain family member 16	Homo sapiens	15-18
32548464-2	2020	In this study, we propose a silicon-on-insulator-based coplanar dual-gate (Cop-DG) ISFET pH sensor, which exhibits better performance than the conventional ISFET pH sensor.	Silicon	28-35	caspase recruitment domain family member 16	Homo sapiens	75-78
32105901-0	2020	Hierarchical iron-doped CoP heterostructures self-assembled on copper foam as a bifunctional electrocatalyst for efficient overall water splitting.	Iron	13-17	caspase recruitment domain family member 16	Homo sapiens	24-27
32105901-0	2020	Hierarchical iron-doped CoP heterostructures self-assembled on copper foam as a bifunctional electrocatalyst for efficient overall water splitting.	Copper	63-69	caspase recruitment domain family member 16	Homo sapiens	24-27
32105901-0	2020	Hierarchical iron-doped CoP heterostructures self-assembled on copper foam as a bifunctional electrocatalyst for efficient overall water splitting.	Water	131-136	caspase recruitment domain family member 16	Homo sapiens	24-27
32105901-1	2020	A bifunctional electrocatalyst with peculiarly hierarchical snowflake-like iron-doped CoP heterostructures self-assembled on copper foam (CoFeP/CF) was synthesized via a facile hydrothermal-phosphidation pathway.	Iron	75-79	caspase recruitment domain family member 16	Homo sapiens	86-89
32105901-1	2020	A bifunctional electrocatalyst with peculiarly hierarchical snowflake-like iron-doped CoP heterostructures self-assembled on copper foam (CoFeP/CF) was synthesized via a facile hydrothermal-phosphidation pathway.	copper foam	125-136	caspase recruitment domain family member 16	Homo sapiens	86-89
32348117-3	2020	Here, we propose a real integrated device consisting of two series-connected perovskite solar cells (PSCs) and two CoP catalyst electrodes, which can be immersed into the aqueous solution directly for solar-driven water splitting.	Water	214-219	caspase recruitment domain family member 16	Homo sapiens	115-118
32414104-1	2020	Reduced graphene oxide/poly(pyrrol-co-thiophene) (RGO/COP), prepared by facile in-situ oxidative copolymerization, is reported as a new hybrid composite material with improved supercapacitance performance as compared to the respective homopolymers and their composites with RGO.	graphene oxide	8-22	caspase recruitment domain family member 16	Homo sapiens	54-57
32414104-1	2020	Reduced graphene oxide/poly(pyrrol-co-thiophene) (RGO/COP), prepared by facile in-situ oxidative copolymerization, is reported as a new hybrid composite material with improved supercapacitance performance as compared to the respective homopolymers and their composites with RGO.	poly(pyrrol-co-thiophene)	23-48	caspase recruitment domain family member 16	Homo sapiens	54-57
32296800-0	2020	Multi-channel V-doped CoP hollow nanofibers as high-performance hydrogen evolution reaction electrocatalysts.	Hydrogen	64-72	caspase recruitment domain family member 16	Homo sapiens	22-25
32323981-4	2020	In this work, we have successfully realized the phase-controllable framework of cobalt phosphide from Co2P to CoP by employing a semi-interpenetrating network (semi-IPN) hydrogel as a precursor.	cobalt phosphide	80-96	caspase recruitment domain family member 16	Homo sapiens	110-113
32323981-4	2020	In this work, we have successfully realized the phase-controllable framework of cobalt phosphide from Co2P to CoP by employing a semi-interpenetrating network (semi-IPN) hydrogel as a precursor.	co2p	102-106	caspase recruitment domain family member 16	Homo sapiens	110-113
32323981-4	2020	In this work, we have successfully realized the phase-controllable framework of cobalt phosphide from Co2P to CoP by employing a semi-interpenetrating network (semi-IPN) hydrogel as a precursor.	ipn	165-168	caspase recruitment domain family member 16	Homo sapiens	110-113
32202754-3	2020	As a proof of concept, heterostructured Au/CoP nanoparticles dispersed on nitrogen-doped carbon with unique porosity, denoted as Au/CoP@NC-3, are synthesized by thermal treatment of Au nanoparticle-incorporated ZIF-67 precursor.	Gold	129-131	caspase recruitment domain family member 16	Homo sapiens	43-46
32242652-2	2020	Herein, a general strategy combining sol-gel and carbonization-assisted route was proposed to facilely fabricate a series of TMPs nanoparticles including CoP, MoP, FeP, Cu2P, Ni2P, PtP2, FeNiP, CoNiP and FeCoNiP, coupled in amorphous carbon matrix with one-step carbon composite formation.	tmps	125-129	caspase recruitment domain family member 16	Homo sapiens	154-157
32242652-2	2020	Herein, a general strategy combining sol-gel and carbonization-assisted route was proposed to facilely fabricate a series of TMPs nanoparticles including CoP, MoP, FeP, Cu2P, Ni2P, PtP2, FeNiP, CoNiP and FeCoNiP, coupled in amorphous carbon matrix with one-step carbon composite formation.	Carbon	49-55	caspase recruitment domain family member 16	Homo sapiens	154-157
32296963-0	2020	Co/CoP Nanoparticles Encapsulated Within N, P-Doped Carbon Nanotubes on Nanoporous Metal-Organic Framework Nanosheets for Oxygen Reduction and Oxygen Evolution Reactions.	n, p-doped	41-51	caspase recruitment domain family member 16	Homo sapiens	3-6
32296963-0	2020	Co/CoP Nanoparticles Encapsulated Within N, P-Doped Carbon Nanotubes on Nanoporous Metal-Organic Framework Nanosheets for Oxygen Reduction and Oxygen Evolution Reactions.	Carbon	52-58	caspase recruitment domain family member 16	Homo sapiens	3-6
32296963-0	2020	Co/CoP Nanoparticles Encapsulated Within N, P-Doped Carbon Nanotubes on Nanoporous Metal-Organic Framework Nanosheets for Oxygen Reduction and Oxygen Evolution Reactions.	Metals	83-88	caspase recruitment domain family member 16	Homo sapiens	3-6
32296963-0	2020	Co/CoP Nanoparticles Encapsulated Within N, P-Doped Carbon Nanotubes on Nanoporous Metal-Organic Framework Nanosheets for Oxygen Reduction and Oxygen Evolution Reactions.	Oxygen	122-128	caspase recruitment domain family member 16	Homo sapiens	3-6
32296963-0	2020	Co/CoP Nanoparticles Encapsulated Within N, P-Doped Carbon Nanotubes on Nanoporous Metal-Organic Framework Nanosheets for Oxygen Reduction and Oxygen Evolution Reactions.	Oxygen	143-149	caspase recruitment domain family member 16	Homo sapiens	3-6
32296963-1	2020	Herein, Co/CoP nanoparticles encapsulated with N, P-doped carbon nanotubes derived from the atomic layer deposited hexagonal metal-organic frameworks (MOFs) are obtained by calcinations and subsequent phosphating and are employed as electrocatalyst.	n, p-doped	47-57	caspase recruitment domain family member 16	Homo sapiens	11-14
32296963-1	2020	Herein, Co/CoP nanoparticles encapsulated with N, P-doped carbon nanotubes derived from the atomic layer deposited hexagonal metal-organic frameworks (MOFs) are obtained by calcinations and subsequent phosphating and are employed as electrocatalyst.	Carbon	58-64	caspase recruitment domain family member 16	Homo sapiens	11-14
32296963-1	2020	Herein, Co/CoP nanoparticles encapsulated with N, P-doped carbon nanotubes derived from the atomic layer deposited hexagonal metal-organic frameworks (MOFs) are obtained by calcinations and subsequent phosphating and are employed as electrocatalyst.	Metals	125-130	caspase recruitment domain family member 16	Homo sapiens	11-14
32202754-2	2020	Herein we report a novel Au-incorporation strategy to boost the HER catalytic performance of CoP.	Gold	25-27	caspase recruitment domain family member 16	Homo sapiens	93-96
32202754-3	2020	As a proof of concept, heterostructured Au/CoP nanoparticles dispersed on nitrogen-doped carbon with unique porosity, denoted as Au/CoP@NC-3, are synthesized by thermal treatment of Au nanoparticle-incorporated ZIF-67 precursor.	Gold	40-42	caspase recruitment domain family member 16	Homo sapiens	43-46
32202754-3	2020	As a proof of concept, heterostructured Au/CoP nanoparticles dispersed on nitrogen-doped carbon with unique porosity, denoted as Au/CoP@NC-3, are synthesized by thermal treatment of Au nanoparticle-incorporated ZIF-67 precursor.	Nitrogen	74-82	caspase recruitment domain family member 16	Homo sapiens	43-46
32202754-3	2020	As a proof of concept, heterostructured Au/CoP nanoparticles dispersed on nitrogen-doped carbon with unique porosity, denoted as Au/CoP@NC-3, are synthesized by thermal treatment of Au nanoparticle-incorporated ZIF-67 precursor.	Carbon	89-95	caspase recruitment domain family member 16	Homo sapiens	43-46
31982717-0	2020	Surface modification of coordination polymers to enable the construction of CoP/N,P-codoped carbon nanowires towards high-performance lithium storage.	Carbon	92-98	caspase recruitment domain family member 16	Homo sapiens	76-79
31982717-0	2020	Surface modification of coordination polymers to enable the construction of CoP/N,P-codoped carbon nanowires towards high-performance lithium storage.	Lithium	134-141	caspase recruitment domain family member 16	Homo sapiens	76-79
31982717-1	2020	A one-dimensional hybrid with N,P co-doped carbon nanowires threaded CoP nanoparticles is rationally fabricated by employing surface modified coordination polymers as a precursor.	Nitrogen	30-31	caspase recruitment domain family member 16	Homo sapiens	69-72
31982717-1	2020	A one-dimensional hybrid with N,P co-doped carbon nanowires threaded CoP nanoparticles is rationally fabricated by employing surface modified coordination polymers as a precursor.	Carbon	43-49	caspase recruitment domain family member 16	Homo sapiens	69-72
31982717-2	2020	Ultrasmall CoP nanoparticlesare well encapsulated in N,P co-doped carbon nanowires, which can effectively buffer the volume expansion of active CoP and facilitate fast lithium-ion/electron transfer during charge/discharge processes.	Nitrogen	53-54	caspase recruitment domain family member 16	Homo sapiens	11-14
31982717-2	2020	Ultrasmall CoP nanoparticlesare well encapsulated in N,P co-doped carbon nanowires, which can effectively buffer the volume expansion of active CoP and facilitate fast lithium-ion/electron transfer during charge/discharge processes.	Nitrogen	53-54	caspase recruitment domain family member 16	Homo sapiens	144-147
31982717-2	2020	Ultrasmall CoP nanoparticlesare well encapsulated in N,P co-doped carbon nanowires, which can effectively buffer the volume expansion of active CoP and facilitate fast lithium-ion/electron transfer during charge/discharge processes.	Carbon	66-72	caspase recruitment domain family member 16	Homo sapiens	11-14
31982717-2	2020	Ultrasmall CoP nanoparticlesare well encapsulated in N,P co-doped carbon nanowires, which can effectively buffer the volume expansion of active CoP and facilitate fast lithium-ion/electron transfer during charge/discharge processes.	Carbon	66-72	caspase recruitment domain family member 16	Homo sapiens	144-147
31982717-2	2020	Ultrasmall CoP nanoparticlesare well encapsulated in N,P co-doped carbon nanowires, which can effectively buffer the volume expansion of active CoP and facilitate fast lithium-ion/electron transfer during charge/discharge processes.	Lithium	168-175	caspase recruitment domain family member 16	Homo sapiens	11-14
32202754-3	2020	As a proof of concept, heterostructured Au/CoP nanoparticles dispersed on nitrogen-doped carbon with unique porosity, denoted as Au/CoP@NC-3, are synthesized by thermal treatment of Au nanoparticle-incorporated ZIF-67 precursor.	zif	211-214	caspase recruitment domain family member 16	Homo sapiens	43-46
32202754-5	2020	In-depth analysis suggests that the improved HER activity of Au/CoP@NC-3 is attributed to the presence of Au nanoparticles, which enlarge the electrochemical active surface areas, and adjust the electronic structure of active CoP species to enhance the water adsorption and optimize the H adsorption for accelerated HER process.	Gold	61-63	caspase recruitment domain family member 16	Homo sapiens	64-67
32202754-5	2020	In-depth analysis suggests that the improved HER activity of Au/CoP@NC-3 is attributed to the presence of Au nanoparticles, which enlarge the electrochemical active surface areas, and adjust the electronic structure of active CoP species to enhance the water adsorption and optimize the H adsorption for accelerated HER process.	Gold	61-63	caspase recruitment domain family member 16	Homo sapiens	226-229
32202754-5	2020	In-depth analysis suggests that the improved HER activity of Au/CoP@NC-3 is attributed to the presence of Au nanoparticles, which enlarge the electrochemical active surface areas, and adjust the electronic structure of active CoP species to enhance the water adsorption and optimize the H adsorption for accelerated HER process.	Water	253-258	caspase recruitment domain family member 16	Homo sapiens	64-67
32202754-5	2020	In-depth analysis suggests that the improved HER activity of Au/CoP@NC-3 is attributed to the presence of Au nanoparticles, which enlarge the electrochemical active surface areas, and adjust the electronic structure of active CoP species to enhance the water adsorption and optimize the H adsorption for accelerated HER process.	Water	253-258	caspase recruitment domain family member 16	Homo sapiens	226-229
31770723-0	2020	Ce-doped CoP nanoparticles embedded in carbon nanotubes as an efficient and durable catalyst for hydrogen evolution.	Carbon	39-45	caspase recruitment domain family member 16	Homo sapiens	9-12
31770723-0	2020	Ce-doped CoP nanoparticles embedded in carbon nanotubes as an efficient and durable catalyst for hydrogen evolution.	Hydrogen	97-105	caspase recruitment domain family member 16	Homo sapiens	9-12
31770723-1	2020	In this work, a cerium doped CoP nanoparticles (NPs) embedded in carbon nanotubes (CNTs) for efficient and durable hydrogen evolution was developed.	Carbon	65-71	caspase recruitment domain family member 16	Homo sapiens	29-32
31863720-0	2020	Boron-Induced Electronic-Structure Reformation of CoP Nanoparticles Drives Enhanced pH-Universal Hydrogen Evolution.	Boron	0-5	caspase recruitment domain family member 16	Homo sapiens	50-53
31863720-0	2020	Boron-Induced Electronic-Structure Reformation of CoP Nanoparticles Drives Enhanced pH-Universal Hydrogen Evolution.	Hydrogen	97-105	caspase recruitment domain family member 16	Homo sapiens	50-53
31863720-2	2020	Herein, for the first time, boron (B)-modulated electrocatalytic characteristics in CoP anchored on the carbon nanotubes (B-CoP/CNT) with impressive HER activities over a wide pH range are reported.	Boron	28-33	caspase recruitment domain family member 16	Homo sapiens	84-87
31863720-2	2020	Herein, for the first time, boron (B)-modulated electrocatalytic characteristics in CoP anchored on the carbon nanotubes (B-CoP/CNT) with impressive HER activities over a wide pH range are reported.	Boron	28-33	caspase recruitment domain family member 16	Homo sapiens	124-127
31863720-2	2020	Herein, for the first time, boron (B)-modulated electrocatalytic characteristics in CoP anchored on the carbon nanotubes (B-CoP/CNT) with impressive HER activities over a wide pH range are reported.	Carbon	104-110	caspase recruitment domain family member 16	Homo sapiens	84-87
31863720-2	2020	Herein, for the first time, boron (B)-modulated electrocatalytic characteristics in CoP anchored on the carbon nanotubes (B-CoP/CNT) with impressive HER activities over a wide pH range are reported.	Carbon	104-110	caspase recruitment domain family member 16	Homo sapiens	124-127
32195801-5	2020	Group A (n = 65) was injected with a p-COP-determined iodine dose (developed by Higaki and Awai, Hiroshima University, Japan).	Iodine	54-60	caspase recruitment domain family member 16	Homo sapiens	39-42
31806308-3	2020	A novel porphyrin-based porous polymer, named COP-180, was recently introduced as a powerful adsorbent option, especially for gold, and in this study, aspects of desorption and recovery of adsorbed gold and regeneration of the polymer were investigated.	Porphyrins	8-17	caspase recruitment domain family member 16	Homo sapiens	46-49
31806308-4	2020	A hydrometallurgical method using non-cyanide leaching agents was developed, and an acid thiourea-based solution was found to be particularly suited for the method based on COP-180 with gold desorption efficiency of 97%.	Thiourea	89-97	caspase recruitment domain family member 16	Homo sapiens	173-176
31806308-8	2020	The results suggest that acid thiourea can offer a workable means of recovering gold particularly from the excellent gold-adsorbent of COP-180, and that repeated regeneration is also possible.	Thiourea	25-38	caspase recruitment domain family member 16	Homo sapiens	135-138
31770723-1	2020	In this work, a cerium doped CoP nanoparticles (NPs) embedded in carbon nanotubes (CNTs) for efficient and durable hydrogen evolution was developed.	Hydrogen	115-123	caspase recruitment domain family member 16	Homo sapiens	29-32
31770723-6	2020	Finally, by using Ce-doped Co CNTs as the precursor, the target catalyst (Ce0.05-doped CoP CNTs) was obtained through a chemical vapour deposition (CVD) process in the presence of NaH2PO2.	Sodium	180-187	caspase recruitment domain family member 16	Homo sapiens	87-90
31927906-2	2020	In this study, core-shell metal organic framworks@covalent organic polymers (MOF@COP) nanocomposites were formed by the covalent linking of chemically stable COP on the surface of size-selective UiO-66-NH2.	T-66	195-205	caspase recruitment domain family member 16	Homo sapiens	81-84
31927906-3	2020	Pd nanoclusters with an average diameter of ~0.8 nm were successfully confined in UiO-66-NH2@COP, and the obtained nanoreactor referred to as UiO-66-NH2@COP@Pd exhibited abundant porosity, high stability, and a large surface area.	Palladium	0-2	caspase recruitment domain family member 16	Homo sapiens	93-96
31927906-3	2020	Pd nanoclusters with an average diameter of ~0.8 nm were successfully confined in UiO-66-NH2@COP, and the obtained nanoreactor referred to as UiO-66-NH2@COP@Pd exhibited abundant porosity, high stability, and a large surface area.	Palladium	0-2	caspase recruitment domain family member 16	Homo sapiens	153-156
31927906-3	2020	Pd nanoclusters with an average diameter of ~0.8 nm were successfully confined in UiO-66-NH2@COP, and the obtained nanoreactor referred to as UiO-66-NH2@COP@Pd exhibited abundant porosity, high stability, and a large surface area.	T-66	82-92	caspase recruitment domain family member 16	Homo sapiens	93-96
31927906-3	2020	Pd nanoclusters with an average diameter of ~0.8 nm were successfully confined in UiO-66-NH2@COP, and the obtained nanoreactor referred to as UiO-66-NH2@COP@Pd exhibited abundant porosity, high stability, and a large surface area.	T-66	82-92	caspase recruitment domain family member 16	Homo sapiens	153-156
31927906-3	2020	Pd nanoclusters with an average diameter of ~0.8 nm were successfully confined in UiO-66-NH2@COP, and the obtained nanoreactor referred to as UiO-66-NH2@COP@Pd exhibited abundant porosity, high stability, and a large surface area.	T-66	142-152	caspase recruitment domain family member 16	Homo sapiens	93-96
31927906-3	2020	Pd nanoclusters with an average diameter of ~0.8 nm were successfully confined in UiO-66-NH2@COP, and the obtained nanoreactor referred to as UiO-66-NH2@COP@Pd exhibited abundant porosity, high stability, and a large surface area.	T-66	142-152	caspase recruitment domain family member 16	Homo sapiens	153-156
31927906-3	2020	Pd nanoclusters with an average diameter of ~0.8 nm were successfully confined in UiO-66-NH2@COP, and the obtained nanoreactor referred to as UiO-66-NH2@COP@Pd exhibited abundant porosity, high stability, and a large surface area.	Palladium	157-159	caspase recruitment domain family member 16	Homo sapiens	153-156
31927906-4	2020	Notably, the UiO-66-NH2@COP@Pd nanoreactor exhibited superior catalytic activity and stability for the catalytic reduction of 4-nitrophenol and hydrogenation of other nitroarenes, demonstrating the potential of Pd-cluster-doped MOF@COP hybrid materials as candidates for efficient catalytic hydrogenation.	T-66	13-23	caspase recruitment domain family member 16	Homo sapiens	24-27
31927906-4	2020	Notably, the UiO-66-NH2@COP@Pd nanoreactor exhibited superior catalytic activity and stability for the catalytic reduction of 4-nitrophenol and hydrogenation of other nitroarenes, demonstrating the potential of Pd-cluster-doped MOF@COP hybrid materials as candidates for efficient catalytic hydrogenation.	Palladium	28-30	caspase recruitment domain family member 16	Homo sapiens	24-27
31927906-4	2020	Notably, the UiO-66-NH2@COP@Pd nanoreactor exhibited superior catalytic activity and stability for the catalytic reduction of 4-nitrophenol and hydrogenation of other nitroarenes, demonstrating the potential of Pd-cluster-doped MOF@COP hybrid materials as candidates for efficient catalytic hydrogenation.	4-nitrophenol	126-139	caspase recruitment domain family member 16	Homo sapiens	24-27
31927906-4	2020	Notably, the UiO-66-NH2@COP@Pd nanoreactor exhibited superior catalytic activity and stability for the catalytic reduction of 4-nitrophenol and hydrogenation of other nitroarenes, demonstrating the potential of Pd-cluster-doped MOF@COP hybrid materials as candidates for efficient catalytic hydrogenation.	nitroarenes	167-178	caspase recruitment domain family member 16	Homo sapiens	24-27
31927906-4	2020	Notably, the UiO-66-NH2@COP@Pd nanoreactor exhibited superior catalytic activity and stability for the catalytic reduction of 4-nitrophenol and hydrogenation of other nitroarenes, demonstrating the potential of Pd-cluster-doped MOF@COP hybrid materials as candidates for efficient catalytic hydrogenation.	Palladium	211-213	caspase recruitment domain family member 16	Homo sapiens	24-27
31960837-1	2020	Herein, an environmentally friendly CoP/Zn2In2S5 catalyst is reported as a visible-light photocatalyst for the selective activation of the alpha-C-H bond of methanol to generate ethylene glycol with a selectivity of as high as 90%.	Zinc	40-42	caspase recruitment domain family member 16	Homo sapiens	36-39
31960837-1	2020	Herein, an environmentally friendly CoP/Zn2In2S5 catalyst is reported as a visible-light photocatalyst for the selective activation of the alpha-C-H bond of methanol to generate ethylene glycol with a selectivity of as high as 90%.	Hydrogen	139-148	caspase recruitment domain family member 16	Homo sapiens	36-39
31971671-0	2020	ZIF-8@ZIF-67-Derived Nitrogen-Doped Porous Carbon Confined CoP Polyhedron Targeting Superior Potassium-Ion Storage.	Nitrogen	21-29	caspase recruitment domain family member 16	Homo sapiens	59-62
31960837-1	2020	Herein, an environmentally friendly CoP/Zn2In2S5 catalyst is reported as a visible-light photocatalyst for the selective activation of the alpha-C-H bond of methanol to generate ethylene glycol with a selectivity of as high as 90%.	Methanol	157-165	caspase recruitment domain family member 16	Homo sapiens	36-39
31960837-1	2020	Herein, an environmentally friendly CoP/Zn2In2S5 catalyst is reported as a visible-light photocatalyst for the selective activation of the alpha-C-H bond of methanol to generate ethylene glycol with a selectivity of as high as 90%.	Ethylene Glycol	178-193	caspase recruitment domain family member 16	Homo sapiens	36-39
31922740-2	2020	Herein, a novel carbon-based CoP hybrid with spatial compartmentalization of CoP nanoparticles (NPs) in P-doped dual carbon shells is achieved via a cheap Co-glycerate-template strategy.	Carbon	16-22	caspase recruitment domain family member 16	Homo sapiens	29-32
31922740-2	2020	Herein, a novel carbon-based CoP hybrid with spatial compartmentalization of CoP nanoparticles (NPs) in P-doped dual carbon shells is achieved via a cheap Co-glycerate-template strategy.	Carbon	16-22	caspase recruitment domain family member 16	Homo sapiens	77-80
31922740-2	2020	Herein, a novel carbon-based CoP hybrid with spatial compartmentalization of CoP nanoparticles (NPs) in P-doped dual carbon shells is achieved via a cheap Co-glycerate-template strategy.	Carbon	117-123	caspase recruitment domain family member 16	Homo sapiens	29-32
31922740-2	2020	Herein, a novel carbon-based CoP hybrid with spatial compartmentalization of CoP nanoparticles (NPs) in P-doped dual carbon shells is achieved via a cheap Co-glycerate-template strategy.	Carbon	117-123	caspase recruitment domain family member 16	Homo sapiens	77-80
31922740-2	2020	Herein, a novel carbon-based CoP hybrid with spatial compartmentalization of CoP nanoparticles (NPs) in P-doped dual carbon shells is achieved via a cheap Co-glycerate-template strategy.	methyl (S)-glycerate	155-167	caspase recruitment domain family member 16	Homo sapiens	29-32
31922740-2	2020	Herein, a novel carbon-based CoP hybrid with spatial compartmentalization of CoP nanoparticles (NPs) in P-doped dual carbon shells is achieved via a cheap Co-glycerate-template strategy.	methyl (S)-glycerate	155-167	caspase recruitment domain family member 16	Homo sapiens	77-80
31922740-3	2020	Benefitted from the uniform atomic blending of Co2+ ions in the Co-glycerate precursors, CoP NPs in situ formed in the confined space with NaH2PO2 as phosphorus source during the annealing process; meanwhile, glycerate suffered carbonization and transformed into P-doped dual carbon shells during the annealing process, including interior thin carbon coating, closely encircled CoP NP, and peripheral hollow carbon sphere loading a lot of CoP NPs.	12-(4'-azido-2'-nitrophenoxy)dodecanoyl-coenzyme A	47-51	caspase recruitment domain family member 16	Homo sapiens	89-92
31922740-3	2020	Benefitted from the uniform atomic blending of Co2+ ions in the Co-glycerate precursors, CoP NPs in situ formed in the confined space with NaH2PO2 as phosphorus source during the annealing process; meanwhile, glycerate suffered carbonization and transformed into P-doped dual carbon shells during the annealing process, including interior thin carbon coating, closely encircled CoP NP, and peripheral hollow carbon sphere loading a lot of CoP NPs.	methyl (S)-glycerate	64-76	caspase recruitment domain family member 16	Homo sapiens	89-92
31922740-3	2020	Benefitted from the uniform atomic blending of Co2+ ions in the Co-glycerate precursors, CoP NPs in situ formed in the confined space with NaH2PO2 as phosphorus source during the annealing process; meanwhile, glycerate suffered carbonization and transformed into P-doped dual carbon shells during the annealing process, including interior thin carbon coating, closely encircled CoP NP, and peripheral hollow carbon sphere loading a lot of CoP NPs.	Sodium	139-146	caspase recruitment domain family member 16	Homo sapiens	89-92
31922740-3	2020	Benefitted from the uniform atomic blending of Co2+ ions in the Co-glycerate precursors, CoP NPs in situ formed in the confined space with NaH2PO2 as phosphorus source during the annealing process; meanwhile, glycerate suffered carbonization and transformed into P-doped dual carbon shells during the annealing process, including interior thin carbon coating, closely encircled CoP NP, and peripheral hollow carbon sphere loading a lot of CoP NPs.	Phosphorus	150-160	caspase recruitment domain family member 16	Homo sapiens	89-92
31922740-3	2020	Benefitted from the uniform atomic blending of Co2+ ions in the Co-glycerate precursors, CoP NPs in situ formed in the confined space with NaH2PO2 as phosphorus source during the annealing process; meanwhile, glycerate suffered carbonization and transformed into P-doped dual carbon shells during the annealing process, including interior thin carbon coating, closely encircled CoP NP, and peripheral hollow carbon sphere loading a lot of CoP NPs.	Carbon	228-234	caspase recruitment domain family member 16	Homo sapiens	89-92
31922740-3	2020	Benefitted from the uniform atomic blending of Co2+ ions in the Co-glycerate precursors, CoP NPs in situ formed in the confined space with NaH2PO2 as phosphorus source during the annealing process; meanwhile, glycerate suffered carbonization and transformed into P-doped dual carbon shells during the annealing process, including interior thin carbon coating, closely encircled CoP NP, and peripheral hollow carbon sphere loading a lot of CoP NPs.	Carbon	276-282	caspase recruitment domain family member 16	Homo sapiens	89-92
31922740-3	2020	Benefitted from the uniform atomic blending of Co2+ ions in the Co-glycerate precursors, CoP NPs in situ formed in the confined space with NaH2PO2 as phosphorus source during the annealing process; meanwhile, glycerate suffered carbonization and transformed into P-doped dual carbon shells during the annealing process, including interior thin carbon coating, closely encircled CoP NP, and peripheral hollow carbon sphere loading a lot of CoP NPs.	Carbon	276-282	caspase recruitment domain family member 16	Homo sapiens	89-92
31971671-0	2020	ZIF-8@ZIF-67-Derived Nitrogen-Doped Porous Carbon Confined CoP Polyhedron Targeting Superior Potassium-Ion Storage.	Carbon	43-49	caspase recruitment domain family member 16	Homo sapiens	59-62
31971671-0	2020	ZIF-8@ZIF-67-Derived Nitrogen-Doped Porous Carbon Confined CoP Polyhedron Targeting Superior Potassium-Ion Storage.	Potassium	93-102	caspase recruitment domain family member 16	Homo sapiens	59-62
31971671-4	2020	The synthesis of ZIF-8@ZIF-67 derived nitrogen-doped porous carbon confined CoP polyhedron architectures (NC@CoP/NC) to function as innovative KIB anode materials is reported.	Nitrogen	38-46	caspase recruitment domain family member 16	Homo sapiens	76-79
31971671-4	2020	The synthesis of ZIF-8@ZIF-67 derived nitrogen-doped porous carbon confined CoP polyhedron architectures (NC@CoP/NC) to function as innovative KIB anode materials is reported.	Carbon	60-66	caspase recruitment domain family member 16	Homo sapiens	76-79
32154085-3	2020	This study reports that the Co-based coordination polymer (ZIF-67) anchoring on an indium-organic framework (InOF-1) composite (InOF-1@ZIF-67) is treated followed by carbonization and phosphorization to successfully obtain CoP nanoparticles-embedded carbon nanotubes and nitrogen-doped carbon materials (CoP-InNC@CNT).	Indium	83-89	caspase recruitment domain family member 16	Homo sapiens	223-226
31895395-0	2020	Metal-organic-framework-derived hierarchical Co/CoP-decorated nanoporous carbon polyhedra for robust high-energy storage hybrid supercapacitors.	Carbon	73-79	caspase recruitment domain family member 16	Homo sapiens	48-51
31895395-2	2020	In this study, we successfully prepared cobalt phosphide and cobalt nanoparticles embedded into nitrogen-doped nanoporous carbon (CoP-CoNC/CC) using a simple precipitation method followed by pyrolysis-phosphatization.	Cobalt	40-56	caspase recruitment domain family member 16	Homo sapiens	130-133
31895395-2	2020	In this study, we successfully prepared cobalt phosphide and cobalt nanoparticles embedded into nitrogen-doped nanoporous carbon (CoP-CoNC/CC) using a simple precipitation method followed by pyrolysis-phosphatization.	Cobalt	40-46	caspase recruitment domain family member 16	Homo sapiens	130-133
31895395-2	2020	In this study, we successfully prepared cobalt phosphide and cobalt nanoparticles embedded into nitrogen-doped nanoporous carbon (CoP-CoNC/CC) using a simple precipitation method followed by pyrolysis-phosphatization.	Nitrogen	96-104	caspase recruitment domain family member 16	Homo sapiens	130-133
31895395-2	2020	In this study, we successfully prepared cobalt phosphide and cobalt nanoparticles embedded into nitrogen-doped nanoporous carbon (CoP-CoNC/CC) using a simple precipitation method followed by pyrolysis-phosphatization.	Carbon	122-128	caspase recruitment domain family member 16	Homo sapiens	130-133
31895395-5	2020	Based on the benefits of the CoP in CoNC/CC, improved electrochemical performance was achieved with a specific capacitance of 975 F g-1 at 1 mA cm-2 in a 2 M KOH electrolyte.	potassium hydroxide	158-161	caspase recruitment domain family member 16	Homo sapiens	29-32
31895395-7	2020	The higher performance can be attributed to the synergetic effect between CoP, Co metal, and the nitrogen-doped nanoporous carbon in three-dimensional carbon cloth (CC).	Carbon	151-157	caspase recruitment domain family member 16	Homo sapiens	74-77
32154085-3	2020	This study reports that the Co-based coordination polymer (ZIF-67) anchoring on an indium-organic framework (InOF-1) composite (InOF-1@ZIF-67) is treated followed by carbonization and phosphorization to successfully obtain CoP nanoparticles-embedded carbon nanotubes and nitrogen-doped carbon materials (CoP-InNC@CNT).	Indium	83-89	caspase recruitment domain family member 16	Homo sapiens	304-307
32154085-3	2020	This study reports that the Co-based coordination polymer (ZIF-67) anchoring on an indium-organic framework (InOF-1) composite (InOF-1@ZIF-67) is treated followed by carbonization and phosphorization to successfully obtain CoP nanoparticles-embedded carbon nanotubes and nitrogen-doped carbon materials (CoP-InNC@CNT).	Carbon	166-172	caspase recruitment domain family member 16	Homo sapiens	223-226
32154085-3	2020	This study reports that the Co-based coordination polymer (ZIF-67) anchoring on an indium-organic framework (InOF-1) composite (InOF-1@ZIF-67) is treated followed by carbonization and phosphorization to successfully obtain CoP nanoparticles-embedded carbon nanotubes and nitrogen-doped carbon materials (CoP-InNC@CNT).	Carbon	166-172	caspase recruitment domain family member 16	Homo sapiens	304-307
32154085-3	2020	This study reports that the Co-based coordination polymer (ZIF-67) anchoring on an indium-organic framework (InOF-1) composite (InOF-1@ZIF-67) is treated followed by carbonization and phosphorization to successfully obtain CoP nanoparticles-embedded carbon nanotubes and nitrogen-doped carbon materials (CoP-InNC@CNT).	Nitrogen	271-279	caspase recruitment domain family member 16	Homo sapiens	223-226
32154085-3	2020	This study reports that the Co-based coordination polymer (ZIF-67) anchoring on an indium-organic framework (InOF-1) composite (InOF-1@ZIF-67) is treated followed by carbonization and phosphorization to successfully obtain CoP nanoparticles-embedded carbon nanotubes and nitrogen-doped carbon materials (CoP-InNC@CNT).	Carbon	250-256	caspase recruitment domain family member 16	Homo sapiens	223-226
32154085-4	2020	As HER and OER electrocatalysts, it is demonstrated that CoP-InNC@CNT simultaneously exhibit high HER performance (overpotential of 153 mV in 0.5 m H2SO4 and 159 mV in 1.0 m KOH) and OER performance (overpotential of 270 mV in 1.0 m KOH) activities to reach the current density of 10 mA cm-2.	sulfuric acid	148-153	caspase recruitment domain family member 16	Homo sapiens	57-60
32154085-4	2020	As HER and OER electrocatalysts, it is demonstrated that CoP-InNC@CNT simultaneously exhibit high HER performance (overpotential of 153 mV in 0.5 m H2SO4 and 159 mV in 1.0 m KOH) and OER performance (overpotential of 270 mV in 1.0 m KOH) activities to reach the current density of 10 mA cm-2.	potassium hydroxide	174-177	caspase recruitment domain family member 16	Homo sapiens	57-60
32154085-4	2020	As HER and OER electrocatalysts, it is demonstrated that CoP-InNC@CNT simultaneously exhibit high HER performance (overpotential of 153 mV in 0.5 m H2SO4 and 159 mV in 1.0 m KOH) and OER performance (overpotential of 270 mV in 1.0 m KOH) activities to reach the current density of 10 mA cm-2.	potassium hydroxide	233-236	caspase recruitment domain family member 16	Homo sapiens	57-60
31998679-0	2019	One-Step Synthesis of N, P-Codoped Carbon Nanosheets Encapsulated CoP Particles for Highly Efficient Oxygen Evolution Reaction.	Nitrogen	22-23	caspase recruitment domain family member 16	Homo sapiens	66-69
31721323-0	2020	Fe doped CoP flower-like microstructure on carbon membrane as integrated electrode with enhanced sodium ion storage.	Iron	0-2	caspase recruitment domain family member 16	Homo sapiens	9-12
31721323-0	2020	Fe doped CoP flower-like microstructure on carbon membrane as integrated electrode with enhanced sodium ion storage.	Carbon	43-49	caspase recruitment domain family member 16	Homo sapiens	9-12
31721323-0	2020	Fe doped CoP flower-like microstructure on carbon membrane as integrated electrode with enhanced sodium ion storage.	Sodium	97-103	caspase recruitment domain family member 16	Homo sapiens	9-12
31721323-3	2020	Considering those strategies, we designed the flower-like Fe doped CoP consisted of the micro sheets grown on the carbon membrane (CM, the leaves as precursor) by hydrothermal method and in-situ phosphorization.	Iron	58-60	caspase recruitment domain family member 16	Homo sapiens	67-70
31721323-3	2020	Considering those strategies, we designed the flower-like Fe doped CoP consisted of the micro sheets grown on the carbon membrane (CM, the leaves as precursor) by hydrothermal method and in-situ phosphorization.	Carbon	114-120	caspase recruitment domain family member 16	Homo sapiens	67-70
31721323-6	2020	The hierarchical Fe doped CoP directly grown on the carbon membrane could increase the active sites for sodium species intercalation and further promote the internal electron conduction in the Fe doped CoP/CM electrode.	Iron	17-19	caspase recruitment domain family member 16	Homo sapiens	26-29
31721323-6	2020	The hierarchical Fe doped CoP directly grown on the carbon membrane could increase the active sites for sodium species intercalation and further promote the internal electron conduction in the Fe doped CoP/CM electrode.	Iron	17-19	caspase recruitment domain family member 16	Homo sapiens	202-205
31721323-6	2020	The hierarchical Fe doped CoP directly grown on the carbon membrane could increase the active sites for sodium species intercalation and further promote the internal electron conduction in the Fe doped CoP/CM electrode.	Carbon	52-58	caspase recruitment domain family member 16	Homo sapiens	26-29
31721323-6	2020	The hierarchical Fe doped CoP directly grown on the carbon membrane could increase the active sites for sodium species intercalation and further promote the internal electron conduction in the Fe doped CoP/CM electrode.	Carbon	52-58	caspase recruitment domain family member 16	Homo sapiens	202-205
31721323-6	2020	The hierarchical Fe doped CoP directly grown on the carbon membrane could increase the active sites for sodium species intercalation and further promote the internal electron conduction in the Fe doped CoP/CM electrode.	Sodium	104-110	caspase recruitment domain family member 16	Homo sapiens	26-29
31721323-6	2020	The hierarchical Fe doped CoP directly grown on the carbon membrane could increase the active sites for sodium species intercalation and further promote the internal electron conduction in the Fe doped CoP/CM electrode.	Sodium	104-110	caspase recruitment domain family member 16	Homo sapiens	202-205
31721323-6	2020	The hierarchical Fe doped CoP directly grown on the carbon membrane could increase the active sites for sodium species intercalation and further promote the internal electron conduction in the Fe doped CoP/CM electrode.	Iron	193-195	caspase recruitment domain family member 16	Homo sapiens	26-29
31721323-6	2020	The hierarchical Fe doped CoP directly grown on the carbon membrane could increase the active sites for sodium species intercalation and further promote the internal electron conduction in the Fe doped CoP/CM electrode.	Iron	193-195	caspase recruitment domain family member 16	Homo sapiens	202-205
31721323-7	2020	Thereby, the Fe doped CoP/CM as anode electrode for sodium ion batteries exhibits high specific capacity of 515 mAh g-1 at 100 mA g-1 after 100 cycles.	Iron	13-15	caspase recruitment domain family member 16	Homo sapiens	22-25
31721323-7	2020	Thereby, the Fe doped CoP/CM as anode electrode for sodium ion batteries exhibits high specific capacity of 515 mAh g-1 at 100 mA g-1 after 100 cycles.	Sodium	52-58	caspase recruitment domain family member 16	Homo sapiens	22-25
31998679-0	2019	One-Step Synthesis of N, P-Codoped Carbon Nanosheets Encapsulated CoP Particles for Highly Efficient Oxygen Evolution Reaction.	Carbon	35-41	caspase recruitment domain family member 16	Homo sapiens	66-69
31998679-0	2019	One-Step Synthesis of N, P-Codoped Carbon Nanosheets Encapsulated CoP Particles for Highly Efficient Oxygen Evolution Reaction.	Oxygen	101-107	caspase recruitment domain family member 16	Homo sapiens	66-69
31998679-3	2019	In this work, we have constructed a new material, CoP nanoparticles, which are encapsulated by a biomolecule-derived N, P-codoped carbon nanosheets via a simple and facile one-step strategy.	Nitrogen	117-118	caspase recruitment domain family member 16	Homo sapiens	50-53
31998679-3	2019	In this work, we have constructed a new material, CoP nanoparticles, which are encapsulated by a biomolecule-derived N, P-codoped carbon nanosheets via a simple and facile one-step strategy.	Carbon	130-136	caspase recruitment domain family member 16	Homo sapiens	50-53
31998679-6	2019	Moreover, the coverage of N, P-doped carbon can prevent the CoP nanoparticles from corrosion under the harsh reaction medium to achieve high and stable activity.	Nitrogen	26-27	caspase recruitment domain family member 16	Homo sapiens	60-63
31998679-6	2019	Moreover, the coverage of N, P-doped carbon can prevent the CoP nanoparticles from corrosion under the harsh reaction medium to achieve high and stable activity.	Carbon	37-43	caspase recruitment domain family member 16	Homo sapiens	60-63
31790250-0	2020	Spontaneous Formation of >90% Optically Transmissive, Electrochemically Active CoP Films for Photoelectrochemical Hydrogen Evolution.	Hydrogen	114-122	caspase recruitment domain family member 16	Homo sapiens	79-82
31790250-3	2020	The photocurrent density under simulated sunlight at a representative n+p-Si(100)/CoP photocathode increases by 200% after exposure to 0.50 M H2SO4(aq) and remains stable for 12 h of continuous operation.	Neptunium	70-73	caspase recruitment domain family member 16	Homo sapiens	82-85
31790250-3	2020	The photocurrent density under simulated sunlight at a representative n+p-Si(100)/CoP photocathode increases by 200% after exposure to 0.50 M H2SO4(aq) and remains stable for 12 h of continuous operation.	Silicon	74-76	caspase recruitment domain family member 16	Homo sapiens	82-85
31790250-3	2020	The photocurrent density under simulated sunlight at a representative n+p-Si(100)/CoP photocathode increases by 200% after exposure to 0.50 M H2SO4(aq) and remains stable for 12 h of continuous operation.	sulfuric acid	142-147	caspase recruitment domain family member 16	Homo sapiens	82-85
31790250-3	2020	The photocurrent density under simulated sunlight at a representative n+p-Si(100)/CoP photocathode increases by 200% after exposure to 0.50 M H2SO4(aq) and remains stable for 12 h of continuous operation.	aq	148-150	caspase recruitment domain family member 16	Homo sapiens	82-85
31790250-4	2020	Atomic force microscopy and scanning electron microscopy of the film before and after exposure to 0.50 M H2SO4(aq) validate an optical model for transparent CoP films as probed with spectroscopic ellipsometry.	sulfuric acid	105-110	caspase recruitment domain family member 16	Homo sapiens	157-160
31790250-4	2020	Atomic force microscopy and scanning electron microscopy of the film before and after exposure to 0.50 M H2SO4(aq) validate an optical model for transparent CoP films as probed with spectroscopic ellipsometry.	aq	111-113	caspase recruitment domain family member 16	Homo sapiens	157-160
31472317-2	2019	Herein, a three-dimensional (3D) structural material in which amorphous carbon (AC) encapsulated CoP nanoparticles are embedded at the top of nitrogen-doped carbon nanotubes derived from ZIF-67/ZIF-8 grown on the surface of carbon nanofibers (AC@CoP/NCNTs/CNFs) is reported for the first time.	Carbon	72-78	caspase recruitment domain family member 16	Homo sapiens	97-100
31430731-0	2019	NiFeP nanoflakes composite with CoP on carbon cloth as flexible and durable electrocatalyst for efficient overall water splitting.	Carbon	39-45	caspase recruitment domain family member 16	Homo sapiens	32-35
31430731-1	2019	High-performance and earth-abundant NiFeP is an excellent bifunctional catalyst for water splitting in acidic and alkaline environments, and NiFeP nanoflakes on CoP layer composite with a conductive carbon cloth (CC) substrate as the trunk-leaf flexible structure (NiFeP/CoP/CC) is prepared by direct high-temperature phosphorization.	Carbon	199-205	caspase recruitment domain family member 16	Homo sapiens	161-164
31430731-6	2019	During 32 h of electrolysis, the results show that the current of our electrodes maintains 80% performance at a constant voltage of 1.7 V for 32 h, and the NiFeP/CoP/CC anodes and cathodes have large potential in industrial alkaline water splitting.	Water	233-238	caspase recruitment domain family member 16	Homo sapiens	162-165
31472317-5	2019	As a result, the electrochemical properties of the potassium ion battery are enhanced when an AC@CoP/NCNTs/CNFs nanocomposite is used as the anode electrode, and the electrode exhibits a reversible capacity of 247 mA h g-1 after 1000 cycles at 0.8 A g-1 in a potassium ion battery.	Potassium	51-60	caspase recruitment domain family member 16	Homo sapiens	97-100
31472317-5	2019	As a result, the electrochemical properties of the potassium ion battery are enhanced when an AC@CoP/NCNTs/CNFs nanocomposite is used as the anode electrode, and the electrode exhibits a reversible capacity of 247 mA h g-1 after 1000 cycles at 0.8 A g-1 in a potassium ion battery.	Potassium	259-268	caspase recruitment domain family member 16	Homo sapiens	97-100
31657897-4	2019	Besides, the produced CoP/NiCoP heterostructure in the bimetallic Ni-Co-P catalyst has excellent HER performance in a wide pH range.	Nickel	26-31	caspase recruitment domain family member 16	Homo sapiens	22-25
31657897-4	2019	Besides, the produced CoP/NiCoP heterostructure in the bimetallic Ni-Co-P catalyst has excellent HER performance in a wide pH range.	Nickel	66-73	caspase recruitment domain family member 16	Homo sapiens	22-25
31591877-2	2019	Herein, binder-free cobalt molybdate nanosheets laminated cobalt phosphate micropetals on nickel foam (CoM NSs@CoP/NF) were facilely prepared for use as an effective battery-type electrode in hybrid SCs.	Cobalt	20-26	caspase recruitment domain family member 16	Homo sapiens	111-114
31591877-2	2019	Herein, binder-free cobalt molybdate nanosheets laminated cobalt phosphate micropetals on nickel foam (CoM NSs@CoP/NF) were facilely prepared for use as an effective battery-type electrode in hybrid SCs.	Cobalt	58-74	caspase recruitment domain family member 16	Homo sapiens	111-114
31591877-2	2019	Herein, binder-free cobalt molybdate nanosheets laminated cobalt phosphate micropetals on nickel foam (CoM NSs@CoP/NF) were facilely prepared for use as an effective battery-type electrode in hybrid SCs.	Nickel	90-96	caspase recruitment domain family member 16	Homo sapiens	111-114
31603662-2	2019	Here, by selecting appreciate precursors of dopamine and a Co-containing metal-organic framework of ZIF-67, we subtly couple their reaction processes to develop a facile approach for the synthesis of a hollow CoP nanostructure with N-doped carbon skeleton (H-CoP@NC).	Dopamine	44-52	caspase recruitment domain family member 16	Homo sapiens	209-212
31603662-2	2019	Here, by selecting appreciate precursors of dopamine and a Co-containing metal-organic framework of ZIF-67, we subtly couple their reaction processes to develop a facile approach for the synthesis of a hollow CoP nanostructure with N-doped carbon skeleton (H-CoP@NC).	Dopamine	44-52	caspase recruitment domain family member 16	Homo sapiens	259-262
31603662-2	2019	Here, by selecting appreciate precursors of dopamine and a Co-containing metal-organic framework of ZIF-67, we subtly couple their reaction processes to develop a facile approach for the synthesis of a hollow CoP nanostructure with N-doped carbon skeleton (H-CoP@NC).	12-(4'-azido-2'-nitrophenoxy)dodecanoyl-coenzyme A	57-61	caspase recruitment domain family member 16	Homo sapiens	209-212
31603662-2	2019	Here, by selecting appreciate precursors of dopamine and a Co-containing metal-organic framework of ZIF-67, we subtly couple their reaction processes to develop a facile approach for the synthesis of a hollow CoP nanostructure with N-doped carbon skeleton (H-CoP@NC).	12-(4'-azido-2'-nitrophenoxy)dodecanoyl-coenzyme A	57-61	caspase recruitment domain family member 16	Homo sapiens	259-262
31603662-2	2019	Here, by selecting appreciate precursors of dopamine and a Co-containing metal-organic framework of ZIF-67, we subtly couple their reaction processes to develop a facile approach for the synthesis of a hollow CoP nanostructure with N-doped carbon skeleton (H-CoP@NC).	HLA-B67 antigen	100-106	caspase recruitment domain family member 16	Homo sapiens	209-212
31603662-2	2019	Here, by selecting appreciate precursors of dopamine and a Co-containing metal-organic framework of ZIF-67, we subtly couple their reaction processes to develop a facile approach for the synthesis of a hollow CoP nanostructure with N-doped carbon skeleton (H-CoP@NC).	HLA-B67 antigen	100-106	caspase recruitment domain family member 16	Homo sapiens	259-262
31603662-2	2019	Here, by selecting appreciate precursors of dopamine and a Co-containing metal-organic framework of ZIF-67, we subtly couple their reaction processes to develop a facile approach for the synthesis of a hollow CoP nanostructure with N-doped carbon skeleton (H-CoP@NC).	Nitrogen	232-233	caspase recruitment domain family member 16	Homo sapiens	209-212
31603662-2	2019	Here, by selecting appreciate precursors of dopamine and a Co-containing metal-organic framework of ZIF-67, we subtly couple their reaction processes to develop a facile approach for the synthesis of a hollow CoP nanostructure with N-doped carbon skeleton (H-CoP@NC).	Nitrogen	232-233	caspase recruitment domain family member 16	Homo sapiens	259-262
31603662-2	2019	Here, by selecting appreciate precursors of dopamine and a Co-containing metal-organic framework of ZIF-67, we subtly couple their reaction processes to develop a facile approach for the synthesis of a hollow CoP nanostructure with N-doped carbon skeleton (H-CoP@NC).	Carbon	240-246	caspase recruitment domain family member 16	Homo sapiens	209-212
31603662-3	2019	Benefiting from the highly porous nanostructure and conductive carbon skeleton, H-CoP@NC is capable of working as highly active and durable bifunctional electrocatalyst for both hydrogen and oxygen evolution reaction.	Carbon	63-69	caspase recruitment domain family member 16	Homo sapiens	82-85
31603662-3	2019	Benefiting from the highly porous nanostructure and conductive carbon skeleton, H-CoP@NC is capable of working as highly active and durable bifunctional electrocatalyst for both hydrogen and oxygen evolution reaction.	Hydrogen	178-186	caspase recruitment domain family member 16	Homo sapiens	82-85
31603662-3	2019	Benefiting from the highly porous nanostructure and conductive carbon skeleton, H-CoP@NC is capable of working as highly active and durable bifunctional electrocatalyst for both hydrogen and oxygen evolution reaction.	Oxygen	191-197	caspase recruitment domain family member 16	Homo sapiens	82-85
31603662-4	2019	When further used as the electrocatalyst for overall water splitting, H-CoP@NC delivers excellent activity (cell voltage of 1.72 V at a current density of 10 mA cm-2), close to that of the noble-metal-based benchmark catalyst couple of Pt/C  RuO2.	Platinum	236-238	caspase recruitment domain family member 16	Homo sapiens	72-75
31603662-4	2019	When further used as the electrocatalyst for overall water splitting, H-CoP@NC delivers excellent activity (cell voltage of 1.72 V at a current density of 10 mA cm-2), close to that of the noble-metal-based benchmark catalyst couple of Pt/C  RuO2.	Ruthenium	239-246	caspase recruitment domain family member 16	Homo sapiens	72-75
31549802-4	2019	As the calcination temperature increases from 300 to 500  C, the crystal pattern transformed from CoP with nickel ions uniformly intercalating into the lattice to the CoNiP structure.	Nickel	107-113	caspase recruitment domain family member 16	Homo sapiens	98-101
31549802-4	2019	As the calcination temperature increases from 300 to 500  C, the crystal pattern transformed from CoP with nickel ions uniformly intercalating into the lattice to the CoNiP structure.	Nickel	167-172	caspase recruitment domain family member 16	Homo sapiens	98-101
31497953-0	2019	Deep Dehalogenation of Florfenicol Using Crystalline CoP Nanosheet Arrays on a Ti Plate via Direct Cathodic Reduction and Atomic H. Efficiently eliminating antibacterial activity of halogenated antibiotics by dehalogenation pretreatment is desired for biochemical treatment process.	florfenicol	23-34	caspase recruitment domain family member 16	Homo sapiens	53-56
31556436-1	2019	A newly prepared tetraphenylethylene-based (TPE-based) covalent organic polymer (COP) named COP-1 exhibits high selectivity for sensing Fe3+ and the limit of detection (LOD) for Fe3+ is 0.42 muM, which is lower than the reported metal-free porous polymers.	tetraphenylethylene	17-36	caspase recruitment domain family member 16	Homo sapiens	92-97
31556436-1	2019	A newly prepared tetraphenylethylene-based (TPE-based) covalent organic polymer (COP) named COP-1 exhibits high selectivity for sensing Fe3+ and the limit of detection (LOD) for Fe3+ is 0.42 muM, which is lower than the reported metal-free porous polymers.	1,1,2-triphenylbut-1-ene	44-47	caspase recruitment domain family member 16	Homo sapiens	92-97
31556436-1	2019	A newly prepared tetraphenylethylene-based (TPE-based) covalent organic polymer (COP) named COP-1 exhibits high selectivity for sensing Fe3+ and the limit of detection (LOD) for Fe3+ is 0.42 muM, which is lower than the reported metal-free porous polymers.	Iron	136-140	caspase recruitment domain family member 16	Homo sapiens	92-97
31556436-1	2019	A newly prepared tetraphenylethylene-based (TPE-based) covalent organic polymer (COP) named COP-1 exhibits high selectivity for sensing Fe3+ and the limit of detection (LOD) for Fe3+ is 0.42 muM, which is lower than the reported metal-free porous polymers.	Iron	178-182	caspase recruitment domain family member 16	Homo sapiens	92-97
31556436-3	2019	The COP-1 shows potential applications in biosensors of Fe3+ and preparation of WLEDs.	Iron	56-60	caspase recruitment domain family member 16	Homo sapiens	4-9
31559991-0	2019	A pyrolysis-phosphorization approach to fabricate carbon nanotubes with embedded CoP nanoparticles for ambient electrosynthesis of ammonia.	Carbon	50-56	caspase recruitment domain family member 16	Homo sapiens	81-84
31559991-0	2019	A pyrolysis-phosphorization approach to fabricate carbon nanotubes with embedded CoP nanoparticles for ambient electrosynthesis of ammonia.	Ammonia	131-138	caspase recruitment domain family member 16	Homo sapiens	81-84
31559991-1	2019	We report a pyrolysis-phosphorization approach to fabricate carbon nanotubes with embedded CoP nanoparticles (CoP/CNs) using ZIF-67 as a precursor for electrocatalytic nitrogen (N2) reduction to ammonia (NH3) under ambient conditions.	Carbon	60-66	caspase recruitment domain family member 16	Homo sapiens	91-94
31559991-1	2019	We report a pyrolysis-phosphorization approach to fabricate carbon nanotubes with embedded CoP nanoparticles (CoP/CNs) using ZIF-67 as a precursor for electrocatalytic nitrogen (N2) reduction to ammonia (NH3) under ambient conditions.	Carbon	60-66	caspase recruitment domain family member 16	Homo sapiens	110-113
31559991-1	2019	We report a pyrolysis-phosphorization approach to fabricate carbon nanotubes with embedded CoP nanoparticles (CoP/CNs) using ZIF-67 as a precursor for electrocatalytic nitrogen (N2) reduction to ammonia (NH3) under ambient conditions.	HLA-B67 antigen	125-131	caspase recruitment domain family member 16	Homo sapiens	91-94
31559991-1	2019	We report a pyrolysis-phosphorization approach to fabricate carbon nanotubes with embedded CoP nanoparticles (CoP/CNs) using ZIF-67 as a precursor for electrocatalytic nitrogen (N2) reduction to ammonia (NH3) under ambient conditions.	HLA-B67 antigen	125-131	caspase recruitment domain family member 16	Homo sapiens	110-113
31559991-1	2019	We report a pyrolysis-phosphorization approach to fabricate carbon nanotubes with embedded CoP nanoparticles (CoP/CNs) using ZIF-67 as a precursor for electrocatalytic nitrogen (N2) reduction to ammonia (NH3) under ambient conditions.	Nitrogen	168-176	caspase recruitment domain family member 16	Homo sapiens	91-94
31559991-1	2019	We report a pyrolysis-phosphorization approach to fabricate carbon nanotubes with embedded CoP nanoparticles (CoP/CNs) using ZIF-67 as a precursor for electrocatalytic nitrogen (N2) reduction to ammonia (NH3) under ambient conditions.	Nitrogen	168-176	caspase recruitment domain family member 16	Homo sapiens	110-113
31559991-1	2019	We report a pyrolysis-phosphorization approach to fabricate carbon nanotubes with embedded CoP nanoparticles (CoP/CNs) using ZIF-67 as a precursor for electrocatalytic nitrogen (N2) reduction to ammonia (NH3) under ambient conditions.	Ammonia	195-202	caspase recruitment domain family member 16	Homo sapiens	91-94
31559991-1	2019	We report a pyrolysis-phosphorization approach to fabricate carbon nanotubes with embedded CoP nanoparticles (CoP/CNs) using ZIF-67 as a precursor for electrocatalytic nitrogen (N2) reduction to ammonia (NH3) under ambient conditions.	Ammonia	195-202	caspase recruitment domain family member 16	Homo sapiens	110-113
31559991-1	2019	We report a pyrolysis-phosphorization approach to fabricate carbon nanotubes with embedded CoP nanoparticles (CoP/CNs) using ZIF-67 as a precursor for electrocatalytic nitrogen (N2) reduction to ammonia (NH3) under ambient conditions.	Ammonia	204-207	caspase recruitment domain family member 16	Homo sapiens	91-94
31559991-1	2019	We report a pyrolysis-phosphorization approach to fabricate carbon nanotubes with embedded CoP nanoparticles (CoP/CNs) using ZIF-67 as a precursor for electrocatalytic nitrogen (N2) reduction to ammonia (NH3) under ambient conditions.	Ammonia	204-207	caspase recruitment domain family member 16	Homo sapiens	110-113
31559991-2	2019	The results demonstrate that the as-synthesized CoP/CNs as electrocatalysts exhibit high electrocatalytic activity toward the N2 reduction reaction (NRR), affording a large NH3 yield rate of 48.9 mug h-1 mgcat.-1 with a faradaic efficiency (FE) of 8.7% at -0.4 V (vs. RHE) in 0.1 M Na2SO4 electrolyte.	Ammonia	173-176	caspase recruitment domain family member 16	Homo sapiens	48-51
31559991-2	2019	The results demonstrate that the as-synthesized CoP/CNs as electrocatalysts exhibit high electrocatalytic activity toward the N2 reduction reaction (NRR), affording a large NH3 yield rate of 48.9 mug h-1 mgcat.-1 with a faradaic efficiency (FE) of 8.7% at -0.4 V (vs. RHE) in 0.1 M Na2SO4 electrolyte.	Sodium	282-288	caspase recruitment domain family member 16	Homo sapiens	48-51
31559991-3	2019	The 15N isotopic labelling experiments confirm that the NH3 obtained is indeed from the CoP/CN catalyzed NRR process.	Ammonia	56-59	caspase recruitment domain family member 16	Homo sapiens	88-91
31535845-0	2019	Template-Directed Bifunctional Dodecahedral CoP/CN@MoS2 Electrocatalyst for High Efficient Water Splitting.	Water	91-96	caspase recruitment domain family member 16	Homo sapiens	44-47
31535845-3	2019	The metal-organic framework of ZIF-67 is chosen to serve as the template and for providing Co sources, in which ZIF-67 is first transformed to Co nanoparticles embedded in nitrogen-doped carbon polyhedrons and then transformed to CoP/CN.	Metals	4-9	caspase recruitment domain family member 16	Homo sapiens	230-233
31535845-5	2019	Benefiting from the synergistic coupling effect of CoP and MoS2 and the nitrogen doped carbon matrix, advanced HER both in acid and alkaline solution as well as splendid OER performance in alkaline aqueous were achieved.	Carbon	87-93	caspase recruitment domain family member 16	Homo sapiens	51-54
31535845-7	2019	The as-prepared hybrid CoP/CN@MoS2 not only exhibits decent HER activity in acidic (eta10=144 mV) and alkaline solutions (eta10=149 mV), but also endows splendid OER activity (eta10=289 mV) in 1.0 M KOH.	potassium hydroxide	199-202	caspase recruitment domain family member 16	Homo sapiens	23-26
31531424-1	2019	The 4-amino-1,8-naphthalimide Troger"s base functionalized triazine covalent organic polymer TB-TZ-COP was synthesised and employed as a "turn-on" fluorescent and a colorimetric sensor for the discriminative sensing of volatile organic compounds; the TB-TZ-COP displaying the largest fluorescent enhancement and high sensitivity for 1,4-dioxane, a harmful environmental pollutant classified as a Group 2B carcinogen.	4-amino-1,8-naphthalimide	4-29	caspase recruitment domain family member 16	Homo sapiens	99-102
31531424-1	2019	The 4-amino-1,8-naphthalimide Troger"s base functionalized triazine covalent organic polymer TB-TZ-COP was synthesised and employed as a "turn-on" fluorescent and a colorimetric sensor for the discriminative sensing of volatile organic compounds; the TB-TZ-COP displaying the largest fluorescent enhancement and high sensitivity for 1,4-dioxane, a harmful environmental pollutant classified as a Group 2B carcinogen.	4-amino-1,8-naphthalimide	4-29	caspase recruitment domain family member 16	Homo sapiens	257-260
31531424-1	2019	The 4-amino-1,8-naphthalimide Troger"s base functionalized triazine covalent organic polymer TB-TZ-COP was synthesised and employed as a "turn-on" fluorescent and a colorimetric sensor for the discriminative sensing of volatile organic compounds; the TB-TZ-COP displaying the largest fluorescent enhancement and high sensitivity for 1,4-dioxane, a harmful environmental pollutant classified as a Group 2B carcinogen.	Triazines	59-67	caspase recruitment domain family member 16	Homo sapiens	99-102
31531424-1	2019	The 4-amino-1,8-naphthalimide Troger"s base functionalized triazine covalent organic polymer TB-TZ-COP was synthesised and employed as a "turn-on" fluorescent and a colorimetric sensor for the discriminative sensing of volatile organic compounds; the TB-TZ-COP displaying the largest fluorescent enhancement and high sensitivity for 1,4-dioxane, a harmful environmental pollutant classified as a Group 2B carcinogen.	Triazines	59-67	caspase recruitment domain family member 16	Homo sapiens	257-260
31531424-1	2019	The 4-amino-1,8-naphthalimide Troger"s base functionalized triazine covalent organic polymer TB-TZ-COP was synthesised and employed as a "turn-on" fluorescent and a colorimetric sensor for the discriminative sensing of volatile organic compounds; the TB-TZ-COP displaying the largest fluorescent enhancement and high sensitivity for 1,4-dioxane, a harmful environmental pollutant classified as a Group 2B carcinogen.	Polymers	85-92	caspase recruitment domain family member 16	Homo sapiens	99-102
31531424-1	2019	The 4-amino-1,8-naphthalimide Troger"s base functionalized triazine covalent organic polymer TB-TZ-COP was synthesised and employed as a "turn-on" fluorescent and a colorimetric sensor for the discriminative sensing of volatile organic compounds; the TB-TZ-COP displaying the largest fluorescent enhancement and high sensitivity for 1,4-dioxane, a harmful environmental pollutant classified as a Group 2B carcinogen.	Polymers	85-92	caspase recruitment domain family member 16	Homo sapiens	257-260
31531424-1	2019	The 4-amino-1,8-naphthalimide Troger"s base functionalized triazine covalent organic polymer TB-TZ-COP was synthesised and employed as a "turn-on" fluorescent and a colorimetric sensor for the discriminative sensing of volatile organic compounds; the TB-TZ-COP displaying the largest fluorescent enhancement and high sensitivity for 1,4-dioxane, a harmful environmental pollutant classified as a Group 2B carcinogen.	tb-tz	93-98	caspase recruitment domain family member 16	Homo sapiens	99-102
31531424-1	2019	The 4-amino-1,8-naphthalimide Troger"s base functionalized triazine covalent organic polymer TB-TZ-COP was synthesised and employed as a "turn-on" fluorescent and a colorimetric sensor for the discriminative sensing of volatile organic compounds; the TB-TZ-COP displaying the largest fluorescent enhancement and high sensitivity for 1,4-dioxane, a harmful environmental pollutant classified as a Group 2B carcinogen.	tb-tz	93-98	caspase recruitment domain family member 16	Homo sapiens	257-260
31531424-1	2019	The 4-amino-1,8-naphthalimide Troger"s base functionalized triazine covalent organic polymer TB-TZ-COP was synthesised and employed as a "turn-on" fluorescent and a colorimetric sensor for the discriminative sensing of volatile organic compounds; the TB-TZ-COP displaying the largest fluorescent enhancement and high sensitivity for 1,4-dioxane, a harmful environmental pollutant classified as a Group 2B carcinogen.	tb-tz	251-256	caspase recruitment domain family member 16	Homo sapiens	99-102
31531424-1	2019	The 4-amino-1,8-naphthalimide Troger"s base functionalized triazine covalent organic polymer TB-TZ-COP was synthesised and employed as a "turn-on" fluorescent and a colorimetric sensor for the discriminative sensing of volatile organic compounds; the TB-TZ-COP displaying the largest fluorescent enhancement and high sensitivity for 1,4-dioxane, a harmful environmental pollutant classified as a Group 2B carcinogen.	1,4-dioxane	333-344	caspase recruitment domain family member 16	Homo sapiens	99-102
31552973-0	2019	2D ultrathin CoP modified MnxCd1-xS with controllable band structure and robust photocatalytic performance for hydrogen generation.	Hydrogen	111-119	caspase recruitment domain family member 16	Homo sapiens	13-16
31552973-3	2019	An optimal H2 production rate of 65 324 mumol g-1 h-1 was obtained for the Mn0.5Cd0.5S/CoP-4% sample under visible light irradiation, which was 4.26 times higher than that of pure Mn0.5Cd0.5S as well as 38.7 times that of pure CdS.	Hydrogen	11-13	caspase recruitment domain family member 16	Homo sapiens	87-90
31552973-3	2019	An optimal H2 production rate of 65 324 mumol g-1 h-1 was obtained for the Mn0.5Cd0.5S/CoP-4% sample under visible light irradiation, which was 4.26 times higher than that of pure Mn0.5Cd0.5S as well as 38.7 times that of pure CdS.	Cadmium	227-230	caspase recruitment domain family member 16	Homo sapiens	87-90
31497953-1	2019	In this study, crystalline cobalt phosphide nanosheet arrays on a Ti plate (C-CoP/Ti) are fabricated by simple electrodeposition and phosphorization process.	cobalt phosphide	27-43	caspase recruitment domain family member 16	Homo sapiens	78-81
31497953-4	2019	As a result, the dehalogenation rate of florfenicol (FLO, an emerging organic pollutant) on C-CoP/Ti is 11.1, 2.97, and 13.6 times higher than that on amorphous CoP/Ti, Pd/Ti and bare Ti, respectively.	florfenicol	40-51	caspase recruitment domain family member 16	Homo sapiens	94-97
31497953-4	2019	As a result, the dehalogenation rate of florfenicol (FLO, an emerging organic pollutant) on C-CoP/Ti is 11.1, 2.97, and 13.6 times higher than that on amorphous CoP/Ti, Pd/Ti and bare Ti, respectively.	florfenicol	40-51	caspase recruitment domain family member 16	Homo sapiens	161-164
31497953-4	2019	As a result, the dehalogenation rate of florfenicol (FLO, an emerging organic pollutant) on C-CoP/Ti is 11.1, 2.97, and 13.6 times higher than that on amorphous CoP/Ti, Pd/Ti and bare Ti, respectively.	florfenicol	53-56	caspase recruitment domain family member 16	Homo sapiens	94-97
31497953-4	2019	As a result, the dehalogenation rate of florfenicol (FLO, an emerging organic pollutant) on C-CoP/Ti is 11.1, 2.97, and 13.6 times higher than that on amorphous CoP/Ti, Pd/Ti and bare Ti, respectively.	florfenicol	53-56	caspase recruitment domain family member 16	Homo sapiens	161-164
31497953-5	2019	The C-CoP/Ti electrode achieves 97.4% dehalogenation of FLO (20 mg L-1) within 30 min at -1.2 V (vs. Ag/AgCl).	florfenicol	56-59	caspase recruitment domain family member 16	Homo sapiens	6-9
31506661-0	2019	C-CoP hollow microporous nanocages based on phosphating regulation: a high-performance bifunctional electrocatalyst for overall water splitting.	Water	128-133	caspase recruitment domain family member 16	Homo sapiens	2-5
31506661-2	2019	Herein, C-coated CoP hollow microporous nanocages (C-CoP-1/12) are synthesized by calcination of a Prussian blue analog precursor and subsequent phosphorization treatment.	ferric ferrocyanide	99-112	caspase recruitment domain family member 16	Homo sapiens	17-20
31506661-3	2019	Under alkaline condition, the C-CoP-1/12 exhibit splendid electrocatalytic performance with a low overpotential of 173 mV for hydrogen evolution reaction (HER) and 333 mV for oxygen evolution reaction (OER) at a current density of 10 mA cm-2.	Hydrogen	126-134	caspase recruitment domain family member 16	Homo sapiens	32-35
31506661-3	2019	Under alkaline condition, the C-CoP-1/12 exhibit splendid electrocatalytic performance with a low overpotential of 173 mV for hydrogen evolution reaction (HER) and 333 mV for oxygen evolution reaction (OER) at a current density of 10 mA cm-2.	Oxygen	175-181	caspase recruitment domain family member 16	Homo sapiens	32-35
31506661-4	2019	The C-CoP-1/12 show high electrocatalytic performance for overall water splitting at a low potential of only 1.650 V for the driving current density of 10 mA cm-2, and they exhibit remarkable stability for at least 24 h. The engineering of phosphating is the critical step for the synthesis of pure-phase CoP with hollow nanoarchitecture.	Water	66-71	caspase recruitment domain family member 16	Homo sapiens	6-11
31506661-4	2019	The C-CoP-1/12 show high electrocatalytic performance for overall water splitting at a low potential of only 1.650 V for the driving current density of 10 mA cm-2, and they exhibit remarkable stability for at least 24 h. The engineering of phosphating is the critical step for the synthesis of pure-phase CoP with hollow nanoarchitecture.	Water	66-71	caspase recruitment domain family member 16	Homo sapiens	6-9
31506661-5	2019	Compared with Co2P, CoP possesses lower water dissociation barrier and favorable DeltaGH* value according to theoretical calculations, resulting in superior electrocatalytic performance.	co2p	14-18	caspase recruitment domain family member 16	Homo sapiens	20-23
31506661-5	2019	Compared with Co2P, CoP possesses lower water dissociation barrier and favorable DeltaGH* value according to theoretical calculations, resulting in superior electrocatalytic performance.	Water	40-45	caspase recruitment domain family member 16	Homo sapiens	20-23
31222820-3	2019	Herein, a novel sulfur cathode integrating sulfur, flexible carbon cloth, and metal-organic framework (MOF)-derived N-doped carbon nanoarrays with embedded CoP (CC@CoP/C) is designed.	sulfur cathode	16-30	caspase recruitment domain family member 16	Homo sapiens	156-159
31200175-2	2019	The main objective of this study is the comprehension of the extraction process of tin and cop per from PCBs by a hydrometallurgical route followed by electrodeposition using copper electrodes.	Polychlorinated Biphenyls	104-108	caspase recruitment domain family member 16	Homo sapiens	91-94
31200175-2	2019	The main objective of this study is the comprehension of the extraction process of tin and cop per from PCBs by a hydrometallurgical route followed by electrodeposition using copper electrodes.	Copper	175-181	caspase recruitment domain family member 16	Homo sapiens	91-94
31361084-0	2019	Hierarchically Porous W-Doped CoP Nanoflake Arrays as Highly Efficient and Stable Electrocatalyst for pH-Universal Hydrogen Evolution.	Hydrogen	115-123	caspase recruitment domain family member 16	Homo sapiens	30-33
31361084-2	2019	Herein, hierarchically porous W-doped CoP nanoflake arrays on carbon cloth (W-CoP NAs/CC) are synthesized via facile liquid-phase reactions and a subsequent phosphorization process.	Carbon	62-68	caspase recruitment domain family member 16	Homo sapiens	38-41
31361084-6	2019	The outstanding electrocatalytic performance of W-CoP NAs/CC can be mainly attributed to the porous W-doped nanoflake arrays, which not only afford rich exposed active sites, but also accelerate the access of electrolytes and the diffusion of H2 bubbles, thus efficiently promoting the HER performance.	Hydrogen	243-245	caspase recruitment domain family member 16	Homo sapiens	50-53
31429568-0	2019	Correction to "Pt-like Hydrogen Evolution Electrocatalysis on PANI/CoP Hybrid Nanowires by Weakening the Shackles of Hydrogen Ions on the Surfaces of Catalysts".	Hydrogen	23-31	caspase recruitment domain family member 16	Homo sapiens	67-70
31429568-0	2019	Correction to "Pt-like Hydrogen Evolution Electrocatalysis on PANI/CoP Hybrid Nanowires by Weakening the Shackles of Hydrogen Ions on the Surfaces of Catalysts".	Hydrogen	117-125	caspase recruitment domain family member 16	Homo sapiens	67-70
31454350-7	2019	The EV-TOP is decomposed into two subproblems: a constrained optimal path problem in the network (EV1-COP) and a shortest path problem in the meta-network (EV2-SP).	ev-top	4-10	caspase recruitment domain family member 16	Homo sapiens	102-105
31343153-0	2019	Constructing Bifunctional 3D Holey and Ultrathin CoP Nanosheets for Efficient Overall Water Splitting.	Water	86-91	caspase recruitment domain family member 16	Homo sapiens	49-52
31343153-3	2019	Herein, by employing a combination of the potentiodynamic mode of electrodeposition and low-temperature phosphidation, three-dimensional (3D) holey CoP ultrathin nanosheets are fabricated on a carbon cloth (PD-CoP UNSs/CC) as bifunctional catalysts.	Carbon	193-199	caspase recruitment domain family member 16	Homo sapiens	148-151
31209961-0	2019	Utilizing the Space-Charge Region of the FeNi-LDH/CoP p-n Junction to Promote Performance in Oxygen Evolution Electrocatalysis.	Oxygen	93-99	caspase recruitment domain family member 16	Homo sapiens	50-53
31051338-0	2019	Coupling Co2P and CoP nanoparticles with copper ions incorporated Co9S8 nanowire arrays for synergistically boosting hydrogen evolution reaction electrocatalysis.	Copper	41-47	caspase recruitment domain family member 16	Homo sapiens	18-21
31051338-0	2019	Coupling Co2P and CoP nanoparticles with copper ions incorporated Co9S8 nanowire arrays for synergistically boosting hydrogen evolution reaction electrocatalysis.	co9s8	66-71	caspase recruitment domain family member 16	Homo sapiens	18-21
31051338-0	2019	Coupling Co2P and CoP nanoparticles with copper ions incorporated Co9S8 nanowire arrays for synergistically boosting hydrogen evolution reaction electrocatalysis.	Hydrogen	117-125	caspase recruitment domain family member 16	Homo sapiens	18-21
31051338-3	2019	Through this treatment, cobalt phosphide (CoxP, i.e., Co2P and CoP) nanoparticles are decorated on the surface of Co9S8-Cu NAs, forming a novel ternary CoxP/Co9S8-Cu NAs electrocatalyst.	cobalt phosphide	24-40	caspase recruitment domain family member 16	Homo sapiens	54-66
31051338-3	2019	Through this treatment, cobalt phosphide (CoxP, i.e., Co2P and CoP) nanoparticles are decorated on the surface of Co9S8-Cu NAs, forming a novel ternary CoxP/Co9S8-Cu NAs electrocatalyst.	co9s8-cu	114-122	caspase recruitment domain family member 16	Homo sapiens	54-66
31051338-3	2019	Through this treatment, cobalt phosphide (CoxP, i.e., Co2P and CoP) nanoparticles are decorated on the surface of Co9S8-Cu NAs, forming a novel ternary CoxP/Co9S8-Cu NAs electrocatalyst.	co9s8-cu	157-165	caspase recruitment domain family member 16	Homo sapiens	54-66
31222820-3	2019	Herein, a novel sulfur cathode integrating sulfur, flexible carbon cloth, and metal-organic framework (MOF)-derived N-doped carbon nanoarrays with embedded CoP (CC@CoP/C) is designed.	sulfur cathode	16-30	caspase recruitment domain family member 16	Homo sapiens	161-169
31222820-3	2019	Herein, a novel sulfur cathode integrating sulfur, flexible carbon cloth, and metal-organic framework (MOF)-derived N-doped carbon nanoarrays with embedded CoP (CC@CoP/C) is designed.	Sulfur	16-22	caspase recruitment domain family member 16	Homo sapiens	156-159
31222820-3	2019	Herein, a novel sulfur cathode integrating sulfur, flexible carbon cloth, and metal-organic framework (MOF)-derived N-doped carbon nanoarrays with embedded CoP (CC@CoP/C) is designed.	Sulfur	16-22	caspase recruitment domain family member 16	Homo sapiens	161-169
31222820-4	2019	These unique flexible nanoarrays with embedded polar CoP nanoparticles not only offer enough voids for volume expansion to maintain the structural stability during the electrochemical process, but also promote the physical encapsulation and chemical entrapment of all sulfur species.	Sulfur	268-274	caspase recruitment domain family member 16	Homo sapiens	53-56
31222820-5	2019	Such designed CC@CoP/C cathodes with synergistic confinement (physical adsorption and chemical interactions) for soluble intermediate lithium polysulfides possess high sulfur loadings (as high as 4.17 mg cm-2 ) and exhibit large specific capacities at different C-rates.	lithium polysulfides	134-154	caspase recruitment domain family member 16	Homo sapiens	14-22
31222820-5	2019	Such designed CC@CoP/C cathodes with synergistic confinement (physical adsorption and chemical interactions) for soluble intermediate lithium polysulfides possess high sulfur loadings (as high as 4.17 mg cm-2 ) and exhibit large specific capacities at different C-rates.	Sulfur	168-174	caspase recruitment domain family member 16	Homo sapiens	14-22
31233051-0	2019	MOF derived CoP-decorated nitrogen-doped carbon polyhedrons/reduced graphene oxide composites for high performance supercapacitors.	Nitrogen	26-34	caspase recruitment domain family member 16	Homo sapiens	12-15
31233051-0	2019	MOF derived CoP-decorated nitrogen-doped carbon polyhedrons/reduced graphene oxide composites for high performance supercapacitors.	Carbon	41-47	caspase recruitment domain family member 16	Homo sapiens	12-15
31233051-0	2019	MOF derived CoP-decorated nitrogen-doped carbon polyhedrons/reduced graphene oxide composites for high performance supercapacitors.	graphene oxide	68-82	caspase recruitment domain family member 16	Homo sapiens	12-15
31233051-1	2019	ZIF-67 derived CoP-decorated nitrogen-doped porous carbon (CoP-NPC) polyhedra anchored on reduced graphene oxide (RGO) sheets have been successfully prepared through an efficient pyrolysis-phosphidation-assembly strategy.	Nitrogen	29-37	caspase recruitment domain family member 16	Homo sapiens	15-18
31233051-1	2019	ZIF-67 derived CoP-decorated nitrogen-doped porous carbon (CoP-NPC) polyhedra anchored on reduced graphene oxide (RGO) sheets have been successfully prepared through an efficient pyrolysis-phosphidation-assembly strategy.	Carbon	51-57	caspase recruitment domain family member 16	Homo sapiens	15-18
31233051-1	2019	ZIF-67 derived CoP-decorated nitrogen-doped porous carbon (CoP-NPC) polyhedra anchored on reduced graphene oxide (RGO) sheets have been successfully prepared through an efficient pyrolysis-phosphidation-assembly strategy.	graphene oxide	98-112	caspase recruitment domain family member 16	Homo sapiens	15-18
31233051-2	2019	The resulting CoP-NPC/RGO composite as an electrode for supercapacitors shows an enhanced electrochemical performance with high capacitances of 466.6 F g-1 at 1 A g-1 and 252 F g-1 at 20 A g-1, as well as 94.7% of capacitance retention after 10 000 cycles in 1 M H2SO4 solution.	sulfuric acid	263-268	caspase recruitment domain family member 16	Homo sapiens	14-17
31233051-4	2019	This superior electrochemical performance of CoP-NPC/RGO can be ascribed to its 3D interconnected porous structure and the synergistic effect between CoP and the nitrogen-doped carbon matrix.	Nitrogen	162-170	caspase recruitment domain family member 16	Homo sapiens	45-48
31233051-4	2019	This superior electrochemical performance of CoP-NPC/RGO can be ascribed to its 3D interconnected porous structure and the synergistic effect between CoP and the nitrogen-doped carbon matrix.	Carbon	177-183	caspase recruitment domain family member 16	Homo sapiens	45-48
31045659-0	2019	Magnesium and calciprotein particles in vascular calcification: the good cop and the bad cop.	Magnesium	0-9	caspase recruitment domain family member 16	Homo sapiens	73-76
31045659-0	2019	Magnesium and calciprotein particles in vascular calcification: the good cop and the bad cop.	Magnesium	0-9	caspase recruitment domain family member 16	Homo sapiens	89-92