PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
27824191-1	2016	Three-dimensional, hollow-structured carbon sphere nanocomposites (N,S-hcs) doped with nitrogen and sulfur were prepared using a soft template approach followed by a high-temperature treatment.	Carbon	37-43	holocarboxylase synthetase	Homo sapiens	71-74	
24825430-1	2014	A multi-wall carbon nanotube supported Pd and Ni catalyst efficiently catalyzes the hydrogen storage of magnesium hydride prepared by HCS + MM.	Carbon	13-19	holocarboxylase synthetase	Homo sapiens	134-137	
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).	Carbon	106-112	holocarboxylase synthetase	Homo sapiens	135-138	
33957043-2	2021	We here report the implantation of Co-SAs into hollow carbon spheres (Co-SAs-HCS) via a facile wet-chemistry strategy followed by controlled pyrolysis.	Carbon	54-60	holocarboxylase synthetase	Homo sapiens	77-80	
34510751-3	2021	Herein, a novel Cu anchored on hollow carbon spheres catalysts (HCS/Cu-x, x represents the mass of CuCl2 added in the system) is designed with controllable copper/carbon heterogenous interfaces.	Carbon	38-44	holocarboxylase synthetase	Homo sapiens	64-67	
34510751-3	2021	Herein, a novel Cu anchored on hollow carbon spheres catalysts (HCS/Cu-x, x represents the mass of CuCl2 added in the system) is designed with controllable copper/carbon heterogenous interfaces.	Carbon	163-169	holocarboxylase synthetase	Homo sapiens	64-67	
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	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.	Carbon	129-135	holocarboxylase synthetase	Homo sapiens	59-62	
34998743-3	2022	Herein, a hollow carbon sphere/porous carbon flake (HCS/PCF) framework is fabricated through template carbonization of plastic waste.	Carbon	17-23	holocarboxylase synthetase	Homo sapiens	52-55	
34998743-3	2022	Herein, a hollow carbon sphere/porous carbon flake (HCS/PCF) framework is fabricated through template carbonization of plastic waste.	Carbon	38-44	holocarboxylase synthetase	Homo sapiens	52-55	
32347850-1	2020	We report the synergistic adsorption and activation of CO2 by using magnesium oxide anchored into a hollow carbon sphere (MgO/HCS) as an efficient catalyst for electrochemical reduction of CO2 (ERC).	Carbon	107-113	holocarboxylase synthetase	Homo sapiens	126-129	
32588534-3	2020	Here, we synthesize a pair of hollow carbon sphere (HCS) nanoreactors with pre-synthesized PdCu nanoparticles encapsulated inside of HCS (PdCu@HCS) and supported outside of HCS (PdCu/HCS), respectively, while keeping other structural features the same.	Carbon	37-43	holocarboxylase synthetase	Homo sapiens	52-55	
30844566-1	2019	Fe and N functionalized hollow carbon spheres (Fe/N-HCS) with hierarchically porous structure are constructed.	Carbon	31-37	holocarboxylase synthetase	Homo sapiens	52-55	
31682135-4	2019	These mesoporous hollow NCQD captured carbon spheres (NCQD-HCS) show fluorescence quantum yield up to 14.6% under lambdaex = 340 nm.	Carbon	38-44	holocarboxylase synthetase	Homo sapiens	59-62	
31832316-3	2019	In this strategy, the hollow carbon spheres are decorated with MoS2 (HCS/MoS2) as the S carrier (S@HCS/MoS2).	Carbon	29-35	holocarboxylase synthetase	Homo sapiens	69-72	
31832316-3	2019	In this strategy, the hollow carbon spheres are decorated with MoS2 (HCS/MoS2) as the S carrier (S@HCS/MoS2).	Carbon	29-35	holocarboxylase synthetase	Homo sapiens	99-102	
31017164-2	2019	In this study, three-dimensional (3D) freestanding multi-doped hollow carbon spheres (N-Co-Fe-HCS) with a layer thickness of 30 nm, which contained multiple active sites of the heteroatom N and transition metals (Co and Fe), were synthesized via a simple template method (with SiO2 as the template) and cost-efficient in situ self-polymerization, self-adsorption/reduction and carbonization strategies.	Carbon	70-76	holocarboxylase synthetase	Homo sapiens	94-97	
31017164-3	2019	Moreover, a series of hollow carbon sphere composites of the same family (N-HCS, N-Co-HCS and N-Fe-HCS) were prepared by this sensible process using the same method and precursors but different doping elements.	Carbon	29-35	holocarboxylase synthetase	Homo sapiens	76-79	
31950608-1	2018	This study reports the synthesis of hierarchical NiCoO2 nanosheets growing on hollow carbon spheres (denoted as NiCoO2 NSs@HCS) via a facile and low-cost process.	Carbon	85-91	holocarboxylase synthetase	Homo sapiens	123-126