PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
6933539-2	1980	The release of 3H into body water from estradiol labeled with 3H in the 17 alpha, 16 alpha, and C-2 positions permits measurement of the rate and extent of 17 beta-ol oxidation and of the competing hydroxylations at C-2 and 16 alpha, which lead to products with different biologicaly properties.	Water	28-33	complement C2	Homo sapiens	96-99	
2564894-6	1989	These observations suggested that esters at C-2" and/or C-7, which would tend to promote water solubility, might serve as useful prodrugs of taxol.	Water	89-94	complement C2	Homo sapiens	44-47	
3036209-1	1987	The carbon kinetic isotope effect on the enzymatic dehydration of HCO3- ion is k12/k13 = 1.011 and is independent, within experimental error, of the addition of sucrose, substitution of D2O for H2O, and substitution of enzyme-bound Zn2+ by Co2+.	Water	194-197	complement C2	Homo sapiens	240-243	
2981549-7	1985	Since this method measures the concentration of Co2+ at the site of the fluorophore, it is generally applicable to the measurement of paramagnetic ion concentrations in the region of the membrane/water interface.	Water	196-201	complement C2	Homo sapiens	48-51	
6130536-8	1982	Knowledge of the rates of hydration and dehydration of CO2/HCO-3 in the fraction of the tissue water responsible for the H+-HCO-3 movements in many secretory epithelia is currently lacking.	Water	95-100	complement C2	Homo sapiens	55-64	
6789903-19	1981	This model has the attraction that it explains the magnetic relaxation rate of solvent water protons in the Co2+-substituted enzyme, whereas the hydroxide mechanism cannot explain these data without the introduction of unfounded ad hoc assumptions; further, the presence of an OH- ligand of the metal has never been demonstrated.	Water	87-92	complement C2	Homo sapiens	108-111	
25024146-0	1983	Use of doubly-labeled water ((3)HH (18)O) for determination of H 2O flux and CO 2 production by a mammal in a humid environment.	Water	22-27	complement C2	Homo sapiens	63-81	
6933539-2	1980	The release of 3H into body water from estradiol labeled with 3H in the 17 alpha, 16 alpha, and C-2 positions permits measurement of the rate and extent of 17 beta-ol oxidation and of the competing hydroxylations at C-2 and 16 alpha, which lead to products with different biologicaly properties.	Water	28-33	complement C2	Homo sapiens	216-219	
893680-2	1977	A fact that has not been considered in previous studies dealing with urinary P(CO2) is that dissolution of HCO(3) in water results in elevation of P(CO2) which is directly proportional to the HCO(3) concentration.	Water	117-122	complement C2	Homo sapiens	77-82	
893680-9	1977	In rats, dogs, and man, U-B P(CO2) was directly related to urine HCO(3) concentration and inversely related to fractional water excretion.	Water	122-127	complement C2	Homo sapiens	24-33	
893680-2	1977	A fact that has not been considered in previous studies dealing with urinary P(CO2) is that dissolution of HCO(3) in water results in elevation of P(CO2) which is directly proportional to the HCO(3) concentration.	Water	117-122	complement C2	Homo sapiens	147-152	
893680-11	1977	The observed urinary P(CO2) was very close to the P(CO2) which would be expected by simple dissolution of a comparable amount of HCO(3) in water.	Water	139-144	complement C2	Homo sapiens	21-26	
893680-11	1977	The observed urinary P(CO2) was very close to the P(CO2) which would be expected by simple dissolution of a comparable amount of HCO(3) in water.	Water	139-144	complement C2	Homo sapiens	50-55	
1249186-2	1976	Metabolism at the C-2 position was monitored by measuring the tritium incorporated into water in the incubate.	Water	88-93	complement C2	Homo sapiens	18-21	
5438017-0	1970	A direct proton magnetic resonance study of Co2+ complexes with imidazole, 4-methylpyridine, pyridine, pyrimidine, and purine in water-acetone mixtures.	Water	129-134	complement C2	Homo sapiens	44-47	
235372-8	1975	Chemical shift measurements (by NMR) on the C-2 and C-5 protons of imidazole in micellar N alpha-dodecanoyl-L-histidine indicate that the imidazole group is, indeed, positioned at the water-micelle interface.	Water	184-189	complement C2	Homo sapiens	44-47	
5685263-1	1968	When a 3-keto bile acid methyl ester was chromatographed on basic alumina inactivated with tritiated water, the enolic hydrogen atoms at C-2 and C-4 exchanged with tritium atoms.	Water	101-106	complement C2	Homo sapiens	137-140	
33890594-5	2021	Compound Co2[(O2P(CH2CH2COO)(C6H5)(H2O)]2 2H2O (3) presents a 1D structure composed of zig-zag chains, formed by edge-sharing cobalt octahedra, with the phenyl groups pointing outside.	Water	35-38	complement C2	Homo sapiens	9-12	
31244122-2	2019	In sum, we characterized two modes of bonding of [Zn2+-Tz] with CO2/H2O: the interaction is established through (i) a covalent bond between Zn2+ of [Zn2+-Tz] and oxygen atoms of CO2 or H2O and (ii) hydrogen bonds through N-H or C-H of [Zn2+-Tz] and oxygen atoms of H2O or CO2, N-H   O.	Water	185-188	complement C2	Homo sapiens	64-71	
33513451-2	2021	This study investigated the batch adsorption performance of a potential cobalt adsorbent, dicalcium phosphate dihydrate (DCPD), in immobilizing Co2+ from water.	Water	154-159	complement C2	Homo sapiens	144-147	
33513451-8	2021	Intraparticle diffusion also contributed to the overall removal kinetics of Co2+ from water.	Water	86-91	complement C2	Homo sapiens	76-79	
32189435-2	2020	However, low catalytic efficiency and poor selectivity especially in pure water system hinder the development of photocatalytic CO2RR owing to the lack of effective catalysts.	Water	74-79	complement C2	Homo sapiens	128-133	
32189435-4	2020	The Er1/CN-NT as a highly efficient and robust photocatalyst exhibits outstanding CO2RR performance in pure water system.	Water	108-113	complement C2	Homo sapiens	82-87	
33310621-5	2021	There is a good linear relationship between fluorescence intensity of PDS and Co2+ concentration within 0-20 muM, and its detection limt was found to be 0.925 muM, which is far lower than the national standard for cobalt in drinking water in China.	Water	233-238	complement C2	Homo sapiens	78-81	
33310621-7	2021	The probe PDS was also successfully applied in detection of Co2+ in tap water and fresh vegetables.	Water	72-77	complement C2	Homo sapiens	60-63	
30628247-5	2018	The water-air interface F(CO2) showed significant hourly, daily, and seasonal variations.	Water	4-9	complement C2	Homo sapiens	24-29	
31023843-7	2019	The distilled water C2 and C5 thresholds increased significantly (p&lt;0.001) by a factor of 1.4 and 1.3, respectively, in CC patients.	Water	14-19	complement C2	Homo sapiens	20-22	
31460181-0	2019	Removal of Heavy Metal Water Pollutants (Co2+ and Ni2+) Using Polyacrylamide/Sodium Montmorillonite (PAM/Na-MMT) Nanocomposites.	Water	23-28	complement C2	Homo sapiens	41-44	
31460181-1	2019	Nanocomposites composed of polyacrylamide and nanoclay were synthesized via free-radical cross-linking polymerization and used to adsorb Co2+ and Ni2+ ions from water.	Water	161-166	complement C2	Homo sapiens	137-140	
30360051-4	2018	For PCN-250 frameworks, H2O molecule induces a remarkable increase in the CO2 uptake for the dynamic CO2 capture from CO2/N2 (15:85) mixture.	Water	24-27	complement C2	Homo sapiens	118-124	
30075304-7	2018	Accordingly, a value of approximately 25 kg CO2eq per m3 of treated water is determined for laboratory scale, compared to only 5 kg CO2eq per m3 at full-scale.	Water	68-73	complement C2	Homo sapiens	44-47	
30004404-0	2018	Plasmonic Sensor Based on Interaction between Silver Nanoparticles and Ni2+ or Co2+ in Water.	Water	87-92	complement C2	Homo sapiens	79-82	
29368776-1	2018	Gas absorption calorimetry has been employed to probe the intercation of water and carbon dioxide with transition metal ion (TM = Mn2+, Fe2+, Co2+, Cu2+, and Zn2+) exchanged zeolite A samples.	Water	73-78	complement C2	Homo sapiens	142-145	
29451291-1	2018	In this work, we demonstrate the synthesis and application of a novel CoII-based metal-organic framework {[Co2(Dcpp)(Bpe)0.5 (H2O)(mu2-H2O)] (Bpe)0.5}n (CoII-MOF, H4Dcpp = 4,5-bis(4"-carboxylphenyl)-phthalic acid, Bpe = 1,2-bis(4-pyridyl)ethane) as an electrochemical sensor for glucose detection.	Water	126-129	complement C2	Homo sapiens	107-110	
29020656-1	2018	Four novel water-soluble Cu(II) derivatives based on the meso-10, 15, 20-Tris (N-methyl-X-pyridyl)-5-(4"-salicyloylhydrazone) metalloporphyrin ligands (X=4, M=Zn(1) Co(2); X=2, M=Zn(3), Co(4)), have been prepared and isolated.	Water	11-16	complement C2	Homo sapiens	165-170	
27353249-1	2016	In this work we use molecular dynamics simulations to study the diffusion of N,N-dimethylformamide (DMF) and H2O as a function of temperature within the well-known metal-organic framework Co2(dobdc) [G] (G = 2DMF 1H2O), also known as Co-MOF-74.	Water	109-112	complement C2	Homo sapiens	188-198	
28262366-11	2017	Three water savings options are assessed for their impact on energy and CO2e emissions reductions.	Water	6-11	complement C2	Homo sapiens	72-75	
28148750-1	2017	CO2 readily combines with H2O to form [Formula: see text] and H+ Because an increase of only 100 nM in the concentration of H+ (a decrease of 0.1 unit of pH) in blood can prove fatal, the regulated excretion of CO2 during breathing is an essential life-preserving process.	Water	26-29	complement C2	Homo sapiens	0-3	
28148750-1	2017	CO2 readily combines with H2O to form [Formula: see text] and H+ Because an increase of only 100 nM in the concentration of H+ (a decrease of 0.1 unit of pH) in blood can prove fatal, the regulated excretion of CO2 during breathing is an essential life-preserving process.	Water	26-29	complement C2	Homo sapiens	211-214	
28316799-1	2017	In the title cobalt(II) coordination polymer with isobutyrate ligands, {[Co{CH(CH3)2CO2}2(H2O)] H2O} n , the Co2+ ion is hexa-coordinated in a slightly distorted octa-hedral coordination environment defined by two O atoms from two bridging water mol-ecules and four O atoms from four bridging carboxyl-ate ligands.	Water	240-245	complement C2	Homo sapiens	109-112	
27754583-4	2016	The Ni2+ , Mn2+ , and Co2+ ion-containing aqueous solution undergoes photo-induced reactions and produces hollow metal-oxide nanospheres (Ni0.18 Mn0.45 Co0.37 Ox ) or core-shell metal hydroxide nanoflowers ([Ni0.15 Mn0.15 Co0.7 (OH)2 ](NO3 )0.2  H2 O), depending on the laser wavelengths.	Water	246-250	complement C2	Homo sapiens	22-25	
29144751-5	2017	Moreover, PdNPs/SBA-15 was an excellent catalyst for the direct arylation at the C-2 position (via C-H activation) of indole in water in the presense of a hypervalent iodine oxidant.	Water	128-133	complement C2	Homo sapiens	81-84	
25658222-9	2015	Precision of the spectrometer, determined using Allan variance analysis, is 3.3 nmol/mol for CO2 and 21 nmol/mol for H2O.	Water	117-120	complement C2	Homo sapiens	93-103	
27389220-0	2016	The nature of the CO2 (-) radical anion in water.	Water	43-48	complement C2	Homo sapiens	18-21	
26831602-12	2016	The mean real-time maximum pain scores during insertion 2.9 +- 2.1 for CO2, 2.7 +- 1.9 for water achieved a significantly lower pain score compared with air (5.7 +- 2.5) group (air vs CO2 P &lt; 0.001; air vs water P &lt; 0.001).	Water	209-214	complement C2	Homo sapiens	71-74	
26286865-4	2015	(3) In systems containing both H2O and CO2, the NOM molecules adopt equilibrium positions at the H2O-CO2 interface with the more hydrophilic structural elements facing the H2O and the more hydrophobic ones facing the CO2.	Water	97-100	complement C2	Homo sapiens	31-42	
25738586-9	2015	The reaction enthalpies of the formation of ssip and cip of [Mg(CO2)(H2O)16]( +) are -36 +- 4 kJ mol(-1) and -30 +- 9 kJ mol(-1), respectively, which were estimated based on the average temperature changes during the ion-molecule reaction between CO2 and [Mg(H2O)16]( +).	Water	69-72	complement C2	Homo sapiens	64-67	
25738586-9	2015	The reaction enthalpies of the formation of ssip and cip of [Mg(CO2)(H2O)16]( +) are -36 +- 4 kJ mol(-1) and -30 +- 9 kJ mol(-1), respectively, which were estimated based on the average temperature changes during the ion-molecule reaction between CO2 and [Mg(H2O)16]( +).	Water	69-73	complement C2	Homo sapiens	64-67	
25428372-8	2014	The conformations of these binding pockets include direct binding through desolvated ion bridges in the GpC steps in B-DNA and A-RNA; direct binding to backbone oxygens; binding of Mg[(H2O)6](2+) to distant phosphates, resulting in acute bending of A-RNA; tight "ion traps" in Z-RNA between C-O2 and the C-O2" atoms in GpC steps; and others.	Water	185-188	complement C2	Homo sapiens	291-295	
25428372-8	2014	The conformations of these binding pockets include direct binding through desolvated ion bridges in the GpC steps in B-DNA and A-RNA; direct binding to backbone oxygens; binding of Mg[(H2O)6](2+) to distant phosphates, resulting in acute bending of A-RNA; tight "ion traps" in Z-RNA between C-O2 and the C-O2" atoms in GpC steps; and others.	Water	185-188	complement C2	Homo sapiens	304-308	
25319078-0	2014	A fluorescent and colorimetric sensor for nanomolar detection of Co2+ in water.	Water	73-78	complement C2	Homo sapiens	65-68	
23511424-4	2013	The conversion of a MeOH-H2O mixture proceeds selectively to CO2/H2 gas formation under neutral conditions, thereby allowing the use of the entire hydrogen content (12% by weight).	Water	25-28	complement C2	Homo sapiens	61-67	
25119139-1	2014	An external reflection (ER) spectrometric device was developed to directly measure adsorbates at the supercritical carbon dioxide (SC-CO2)-water interface.	Water	139-144	complement C2	Homo sapiens	134-137	
24497294-3	2014	METHODS: The DIC-CO2-GEM measures both delta(18)OH2O and delta(13)CDIC values concurrently by combining the fundamental principles of the classic CO2-H2O equilibration and gas evolution methods, respectively.	Water	49-52	complement C2	Homo sapiens	17-20	
23766555-0	2013	Electron Paramagnetic Resonance and Electron Spin Echo Studies of Co2+ Coordination by Nicotinamide Adenine Dinucleotide (NAD+) in Water Solution.	Water	131-136	complement C2	Homo sapiens	66-69	
23766555-1	2013	Co2+ binding to the nicotinamide adenine dinucleotide (NAD+) molecule in water solution was studied by electron paramagnetic resonance (EPR) and electron spin echo at low temperatures.	Water	73-78	complement C2	Homo sapiens	0-3	
25026002-0	2014	Examination of CO2-SO2 solubility in water by SAFT1.	Water	37-42	complement C2	Homo sapiens	15-22	
21788031-0	2011	Optimization of Co2+ ions removal from water solutions via polymer enhanced ultrafiltration with application of PVA and sulfonated PVA as complexing agents.	Water	39-44	complement C2	Homo sapiens	16-19	
21897936-0	2011	Microsolvation of Co2+ and Ni2+ by acetonitrile and water: photodissociation dynamics of M(2+)(CH3CN)n(H2O)m. The microsolvation of cobalt and nickel dications by acetonitrile and water is studied by measuring photofragment spectra at 355, 532 and 560-660 nm.	Water	52-57	complement C2	Homo sapiens	18-21	
19777134-1	2009	A two step synthesis of 2-alkynyl-4-arylquinolines has been accomplished via Pd/C-mediated regioselective C-2 alkynylation of 2,4-dichloroquinoline in water followed by Suzuki coupling at C-4 of the resulting 4-chloro derivative.	Water	151-156	complement C2	Homo sapiens	106-109	
21162566-8	2011	Differences in the quenching rate constants of the triplet by water and phenols suggest a strong hydrogen-bond interaction with the nitro group in the C-2 position, which provides for radiationless deactivation routes.	Water	62-67	complement C2	Homo sapiens	151-154	
19569709-9	2009	The energetics for the (*)OH addition have shown dependence on the site of activation with (HTpe-OH)(*) adducts at C2 and C4 and the (Tpe-OH)(*) adduct at C2 being more thermodynamically stable and the water elimination to give the indoloxyl radical proceeds fast from (HTpe-OH)(*) adduct at C4 due to favorable geometry.	Water	202-207	complement C2	Homo sapiens	115-124	
18816037-4	2008	This barrier is lowered in cyclic H-bonded systems of CO 2 with water dimer and water trimer in which preassociation complexes are formed with binding energies of approximately 7 and 15 kcal/mol, respectively.	Water	64-69	complement C2	Homo sapiens	54-58	
18949492-0	2009	Effects of immersion in water containing high concentrations of CO2 (CO2-water) at thermoneutral on thermoregulation and heart rate variability in humans.	Water	24-29	complement C2	Homo sapiens	69-78	
18816037-4	2008	This barrier is lowered in cyclic H-bonded systems of CO 2 with water dimer and water trimer in which preassociation complexes are formed with binding energies of approximately 7 and 15 kcal/mol, respectively.	Water	80-85	complement C2	Homo sapiens	54-58	
18816037-11	2008	An energy barrier of approximately 20 (gas phase) and a free energy barrier of approximately 19 (in water) kcal/mol were derived for the CO 2 + 4H 2O reaction, and again formation of an ion pair is important.	Water	100-105	complement C2	Homo sapiens	137-141	
18816037-12	2008	The calculated results confirm the crucial role of direct participation of three water molecules ( n = 3) in the eight-member cyclic TS for the CO 2 hydration reaction.	Water	81-86	complement C2	Homo sapiens	144-148	
18816037-13	2008	Carbonic acid and its water complexes are consistently higher in energy (by approximately 6-7 kcal/mol) than the corresponding CO 2 complexes and can undergo more facile water-assisted dehydration processes.	Water	22-27	complement C2	Homo sapiens	127-131	
18816037-13	2008	Carbonic acid and its water complexes are consistently higher in energy (by approximately 6-7 kcal/mol) than the corresponding CO 2 complexes and can undergo more facile water-assisted dehydration processes.	Water	170-175	complement C2	Homo sapiens	127-131	
15913339-3	2005	Our magnetic circular dichroism and electron paramagnetic resonance spectroscopic studies reported here reveal that, in the absence of ATP, the interaction between Co2+Cbl and hATR promotes partial conversion of the cofactor to its "base-off" form in which a water molecule occupies the lower axial position.	Water	259-264	complement C2	Homo sapiens	164-167	
18761457-5	2008	Plotting the fragment ion abundances for ions formed from precursors with fewer than 11 water molecules as a function of hydration extent results in an energy resolved breakdown curve from which the appearance energies of the b 2 (+), y 2 (+), z 2 (+*), c 2 (+), and (KYK + H) (+) fragment ions formed from this peptide ion can be obtained; these values are 78, 88, 42, 11, and 9 kcal/mol, respectively.	Water	88-93	complement C2	Homo sapiens	254-257	
18425614-2	2008	The bioreactors employed a unique type of hydrogenase activity found in some photosynthetic bacteria that functions in darkness to shift CO (and H2O) into H(2) (and CO2).	Water	145-149	complement C2	Homo sapiens	165-168	
17294658-6	2006	Urea restrains the precipitation of Co2(SO3)3 by oxidizing SO3(2-) to SO4(-) as CoSO4 is more soluble in water.	Water	105-110	complement C2	Homo sapiens	36-39	
15065850-1	2004	trans-3-Chloroacrylic acid dehalogenase (CaaD) converts trans-3-chloroacrylic acid to malonate semialdehyde by the addition of H(2)O to the C-2, C-3 double bond, followed by the loss of HCl from the C-3 position.	Water	127-132	complement C2	Homo sapiens	140-143	
15381403-8	2004	The reaction is initiated by the conjugate addition of water to the C-2, C-3 double bond and is followed by the loss of HCl.	Water	55-60	complement C2	Homo sapiens	68-76	
12522669-2	2003	The TPD-MS curves of both H2O and CO2 exhibited two peaks: desorption of H2O and CO2 adsorbed on the particles below 600 degrees C, and liberation of H2O and CO2 in the crystals above 700 degrees C. The increase of carbonate ion content in the particles increased the weight loss in the TPD-TG curves.	Water	26-29	complement C2	Homo sapiens	73-84	
11866609-1	2002	A detailed investigation of the hydration structure of Zn2+, Ni2+, and Co2+ in water solutions has been carried out combining X-ray absorption fine structure (EXAFS) spectroscopy and Molecular Dynamics (MD) simulations.	Water	79-84	complement C2	Homo sapiens	71-74	
12820214-2	2003	This method enables rapid and simple delta(18)O analysis of milligram quantities of water, by employing solid reagent NaHCO(3) as the CO(2) source, a small (0.6 mL) glass vial for the equilibration chamber, and an isotope-monitoring gas chromatography/mass spectrometry (irm-GC/MS) system for delta 18O(CO2) analysis.	Water	84-89	complement C2	Homo sapiens	303-306	
11866610-5	2002	This procedure has been successfully applied to the Co2+-H2O open-shell system and, for the first time, Co-oxygen and Co-hydrogen pair potential functions have been determined and employed in MD simulations.	Water	57-60	complement C2	Homo sapiens	52-55	
10070020-4	1999	In addition, the contribution of gluconeogenesis to glucose production was determined by the 2H enrichment in C-5/C-2 of blood glucose after intake of 2H2O (5 ml/kg body water).	Water	170-175	complement C2	Homo sapiens	114-117	
11735543-2	2001	The reaction proceeds in DMF/water in the presence of potassium carbonate and catalytic palladium(II) acetate and is compatible with both electron-donating and -withdrawing substituents in the para position of the aniline, and with an alkyl substituent at C-2 of the dienyl sulfone.	Water	29-34	complement C2	Homo sapiens	256-259	
1321591-7	1992	Using 17O-enriched water, we show conclusively that nucleophilic addition of water occurs at the nitrone carbon (or C-2 position) of DMPO in the presence of either Fe or Cu ions.	Water	19-24	complement C2	Homo sapiens	116-119	
8901910-3	1996	However, in pure water or methanol SN1 reaction occurs mainly at C-2.	Water	17-22	complement C2	Homo sapiens	65-68	
7780191-0	1995	Tritium labelling of amino sugars at C-2 by alkaline epimerization in tritiated water.	Water	80-85	complement C2	Homo sapiens	37-40	
1321591-7	1992	Using 17O-enriched water, we show conclusively that nucleophilic addition of water occurs at the nitrone carbon (or C-2 position) of DMPO in the presence of either Fe or Cu ions.	Water	77-82	complement C2	Homo sapiens	116-119	
33032209-3	2021	Although thermal treatment at <= 600  C did not lead to the collapse of zeolite framework, it removed H2O molecules from the coordination shell of extraframework Co2+, which in turn changed its coordination structure in a way to strengthen the interaction between Co2+ and the lattice oxygens.	Water	102-105	complement C2	Homo sapiens	162-165	
1522767-0	1992	The inhibitory effect of water on the Co2+ and Cu2+ catalyzed decomposition of methyl linoleate hydroperoxides.	Water	25-30	complement C2	Homo sapiens	38-41	
1522767-1	1992	The inhibitory effect of water on the decomposition of methyl linoleate hydroperoxides (MLHP) catalyzed by Co2+ and Cu2+ was studied in a model system using proton nuclear magnetic resonance (NMR) spectroscopy.	Water	25-30	complement C2	Homo sapiens	107-110	
1522767-10	1992	When Co2+ was added to the model system, K decreased as the concentration of water increased from 0% to 1.5%.	Water	77-82	complement C2	Homo sapiens	5-8	
33032209-3	2021	Although thermal treatment at <= 600  C did not lead to the collapse of zeolite framework, it removed H2O molecules from the coordination shell of extraframework Co2+, which in turn changed its coordination structure in a way to strengthen the interaction between Co2+ and the lattice oxygens.	Water	102-105	complement C2	Homo sapiens	264-267	
35272120-1	2022	In order to remove the organic pollution from water environment, Co2+-doped ZnO nanoarray photocatalyst was prepared through a hydrothermal process.	Water	46-51	complement C2	Homo sapiens	65-68	
34608726-2	2022	Due to the slow proton-feeding rates from sluggish water dissociation kinetics, however, the CO2RR process involving multi-electron and proton transfer is greatly limited by poor selectivity and low yield.	Water	51-56	complement C2	Homo sapiens	93-98	
34787391-0	2021	Structural and Componential Engineering of Co2P&CoP@N-C Nanoarrays for Energy-Efficient Hydrogen Production from Water Electrolysis.	Water	113-118	complement C2	Homo sapiens	43-46	
35567361-2	2022	Co@Mn 3 O 4 nanocubes can efficiently photo-reduce CO 2 to CO with a remarkable turnover number of 581.8 using (Ru(bpy) 3 )Cl 2  6H 2 O as photosensitizer and triethanolamine as sacrificial agent in acetonitrile and water.	Water	216-221	complement C2	Homo sapiens	51-55