PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
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	
33617222-4	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	
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	
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	
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