PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
34962107-1	2022	Implementing fast-charging lithium-ion batteries (LIBs) is severely hindered by the issues of Li plating and poor rate capability for conventional graphite anode.	Graphite	147-155	Fas activated serine/threonine kinase	Homo sapiens	13-17	
34967603-1	2022	In this study, we report a new design paradigm for an electrode preparation method that drastically improves the fast-charging capabilities of a graphite (Gt) anode by controlling the crystallographic orientation.	Graphite	145-153	Fas activated serine/threonine kinase	Homo sapiens	113-117	
34967603-1	2022	In this study, we report a new design paradigm for an electrode preparation method that drastically improves the fast-charging capabilities of a graphite (Gt) anode by controlling the crystallographic orientation.	Graphite	155-157	Fas activated serine/threonine kinase	Homo sapiens	113-117	
33793195-2	2021	However, commercially available graphite anodes still suffer from slow kinetics of lithium-ion diffusion and severe safety concerns of lithium plating when achieving the fast-charging goal.	Graphite	32-40	Fas activated serine/threonine kinase	Homo sapiens	170-174	
34124885-0	2021	Fast and Durable Potassium Storage Enabled by Constructing Stress-Dispersed Co3Se4 Nanocrystallites Anchored on Graphene Sheets.	Graphite	112-120	Fas activated serine/threonine kinase	Homo sapiens	0-4	
34299590-0	2021	Fe3O4/Graphene Composite Anode Material for Fast-Charging Li-Ion Batteries.	Graphite	6-14	Fas activated serine/threonine kinase	Homo sapiens	44-48	
35618443-0	2022	A Nonstoichiometric Niobium Oxide/Graphite Composite for Fast-Charge Lithium-Ion Batteries.	Graphite	34-42	Fas activated serine/threonine kinase	Homo sapiens	57-61	
35349272-0	2022	Introducing a Pseudocapacitive Lithium Storage Mechanism into Graphite by Defect Engineering for Fast-Charging Lithium-Ion Batteries.	Graphite	62-70	Fas activated serine/threonine kinase	Homo sapiens	97-101	
35349272-3	2022	Herein, we demonstrate that intrinsic lattice defect engineering based on a thermal treatment of graphite in CO2 is an effective method to improve the fast-charging capability of the graphite anode.	Graphite	97-105	Fas activated serine/threonine kinase	Homo sapiens	151-155	
35349272-3	2022	Herein, we demonstrate that intrinsic lattice defect engineering based on a thermal treatment of graphite in CO2 is an effective method to improve the fast-charging capability of the graphite anode.	Graphite	183-191	Fas activated serine/threonine kinase	Homo sapiens	151-155	
33147944-0	2020	All-in-One MoS2 Nanosheets Tailored by Porous Nitrogen-Doped Graphene for Fast and Highly Reversible Sodium Storage.	Graphite	61-69	Fas activated serine/threonine kinase	Homo sapiens	74-78