PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
34998743-4	2022	By changing the doping mechanism and tuning the loading content, nano SnO2 spheres and cubes as well as bulk SnO2 flakes and blocks are in-situ grown within the HCS/PCF.	Tin(IV) oxide	70-74	holocarboxylase synthetase	Homo sapiens	161-164	
34998743-4	2022	By changing the doping mechanism and tuning the loading content, nano SnO2 spheres and cubes as well as bulk SnO2 flakes and blocks are in-situ grown within the HCS/PCF.	Tin(IV) oxide	109-113	holocarboxylase synthetase	Homo sapiens	161-164	
34998743-6	2022	Notably, HCS/PCF embedded with nano SnO2 spheres and cubes anodes possess superb long-term cycling stability (~0.048% and ~0.05% average capacitance decay per cycle at 1 A/g over 400 cycles) with high reversible specific capacities of 0.45 and 0.498 Ah/g after 1000 cycles at 5 A/g.	Tin(IV) oxide	36-40	holocarboxylase synthetase	Homo sapiens	9-12	
34998743-7	2022	The ultra-stabilized Li+ storage is attributed to the effective mitigation of nano SnO2 spheres/cubes volume expansion, originating from the compact SnO2 yolk-HCS/PCF shell construction.	Tin(IV) oxide	83-87	holocarboxylase synthetase	Homo sapiens	159-162