PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
30407177-4	2018	Cobalt nanoparticles supported on silica were studied in situ during Fischer-Tropsch catalysis using syngas, H2 and CO, at 723 K and 20 bar.	Cobalt	0-6	relaxin 2	Homo sapiens	109-118	
34927904-5	2021	Specifically, the obtained cobalt-doped TiO2 nanorod arrays (Co-TiO2 @Ti(H2 )) show a low overpotential of only 78 mV at 10 mA cm-2 , a small Tafel plot of 67.8 mV dec-1 , and excellent stability even at an ultralarge current density of  480 mA cm-2 in 1.0 m KOH solution.	Cobalt	27-33	relaxin 2	Homo sapiens	70-75	
32182395-5	2020	Hydrogenolysis of the cobalt acyl under 4 atm H 2 produced the corresponding aldehyde and cobalt hydride, demonstrating the feasibility of elementary steps in hydroformylation.	Cobalt	90-104	relaxin 2	Homo sapiens	46-49	
30243241-1	2018	Thermochemical conversion of cobalt (Co)-loaded lignin-rich spent coffee grounds (COSCG) was carried out to find the appropriate pyrolytic conditions (atmospheric gas and pyrolytic time) for syngas production (H2 and CO) and fabricate Co-biochar catalyst (CBC) in one step.	Cobalt	29-35	relaxin 2	Homo sapiens	210-219	
30243241-1	2018	Thermochemical conversion of cobalt (Co)-loaded lignin-rich spent coffee grounds (COSCG) was carried out to find the appropriate pyrolytic conditions (atmospheric gas and pyrolytic time) for syngas production (H2 and CO) and fabricate Co-biochar catalyst (CBC) in one step.	Cobalt	37-40	relaxin 2	Homo sapiens	210-219	
30242949-3	2018	We describe herein the immobilization of cobalt corroles on carbon nanotubes (CNTs) by four strategies and compare the performance of the resulting hybrids for H2 and O2 evolution.	Cobalt	41-47	relaxin 2	Homo sapiens	160-169	
28970930-7	2017	The co-deposition of a cobalt species can effectively increase the photocatalytic activity and adjust the ratio of H2 and O2 produced, as well as enhancing the stability of the photocatalyst.	Cobalt	23-29	relaxin 2	Homo sapiens	115-124	
26964938-8	2016	The sono-synthesized Ni-Co/Al2O3-MgO as a superior nanocatalyst with Co content of 3% illustrates much higher conversions (97.5% and 99% for CH4 and CO2 at 850  C), yields (94% and 96% for H2 and CO at 850  C) and 0.97 of H2/CO molar ratio in all samples using an equimolar feed ratio at 850  C. During the 1200 min stability test, H2/CO molar ratio remained constant for the superior nanocatalyst.	Cobalt	24-26	relaxin 2	Homo sapiens	222-227	
26964938-8	2016	The sono-synthesized Ni-Co/Al2O3-MgO as a superior nanocatalyst with Co content of 3% illustrates much higher conversions (97.5% and 99% for CH4 and CO2 at 850  C), yields (94% and 96% for H2 and CO at 850  C) and 0.97 of H2/CO molar ratio in all samples using an equimolar feed ratio at 850  C. During the 1200 min stability test, H2/CO molar ratio remained constant for the superior nanocatalyst.	Cobalt	24-26	relaxin 2	Homo sapiens	332-337