PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
29983448-0	2018	Detection of interstellar HCS and its metastable isomer HSC: new pieces in the puzzle of sulfur chemistry.	Sulfur	89-95	holocarboxylase synthetase	Homo sapiens	26-29	
35146906-7	2022	ACo@HCS acting as sulfur host exhibits a high discharge capacity (1003 mAh g-1 ) at a 1.0 C rate after 500 cycles, and the corresponding decay rate is as low as 0.002% per cycle.	Sulfur	18-24	holocarboxylase synthetase	Homo sapiens	4-7	
33886138-2	2021	The product of CoS 2 nanoparticles dispersed in N-doped hollow spheres (N-HCS) was prepared through sulfurization treatment (CoS 2 /S@N-HCS).	Sulfur	17-18	holocarboxylase synthetase	Homo sapiens	74-77	
33886138-2	2021	The product of CoS 2 nanoparticles dispersed in N-doped hollow spheres (N-HCS) was prepared through sulfurization treatment (CoS 2 /S@N-HCS).	Sulfur	17-18	holocarboxylase synthetase	Homo sapiens	136-139	
33886138-5	2021	CoS 2 /S@N-HCS composite exhibits a specific capacity of 729.6 mAh g -1 after 500 cycles at a current density of 1 A g -1 .	Sulfur	2-3	holocarboxylase synthetase	Homo sapiens	11-14	
33886138-7	2021	The excellent cycling performance and rate capability demonstrated that the CoS 2 /S@N-HCS is a potential and prospective anode material for sodium-ion batteries.	Sulfur	78-79	holocarboxylase synthetase	Homo sapiens	87-90	
26890684-2	2016	In this study, we found an efficient strategy to prepare nitrogen, phosphorus, and sulfur co-doped hollow carbon shells (denote as NPS-HCS) with a surface area of 1020 m(2)  g(-1).	Sulfur	83-89	holocarboxylase synthetase	Homo sapiens	135-138	
23620268-3	2013	The application potential of synthesized HCS is substantiated by an excellent cycling stability of lithium-sulfur batteries.	Sulfur	107-113	holocarboxylase synthetase	Homo sapiens	41-44	
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	holocarboxylase synthetase	Homo sapiens	120-123	
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	holocarboxylase synthetase	Homo sapiens	59-62	
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	holocarboxylase synthetase	Homo sapiens	52-55	
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	holocarboxylase synthetase	Homo sapiens	52-55