Through tailoring interfacial chemistry,elec-trolyte engineering is a facile yet effective strategy for high-performance lithium(Li)metal batteries,where the solva-tion structure is critical for interfacial chemistry.Herein,the effect of electrostatic interaction on regulating an anion-rich solvation is firstly proposed.The moderate electrostatic inter-action between anion and solvent promotes anion to enter the solvation sheath,inducing stable solid electrolyte inter-phase with fast Li+transport kinetics on the anode.This as-designed electrolyte exhibits excellent compatibility with Li metal anode(a Li deposition/stripping Coulombic efficiency of 99.3％)and high-voltage LiCoO2 cathode.Consequently,the 50 μm-thin Lillhigh-loading LiCoO2 cells achieve sig-nificantly improved cycling performance under stringent conditions of high voltage over 4.5 V,lean electrolyte,and wide temperature range(-20 to 60℃).This work inspires a groundbreaking strategy to manipulate the solvation structure through regulating the interactions of solvent and anion for high-performance Li metal batteries.

Junru Wu;Ziyao Gao;Yao Wang;Xu Yang;Qi Liu;Dong Zhou;Xianshu Wang;Feiyu Kang;Baohua Li

Tsinghua Shenzhen International Graduate School,Tsinghua University,Shenzhen 518055,People's Republic of China;School of Materials Science and Engineering,Tsinghua University,Beijing 100084,People's Republic of China;College of Materials Science and Engineering,Hunan University,Changsha 410082,People's Republic of China

纳微快报（英文）

[1]Junru Wu;Ziyao Gao;Yao Wang;Xu Yang;Qi Liu;Dong Zhou;Xianshu Wang;Feiyu Kang;Baohua Li-.Electrostatic Interaction Tailored Anion-Rich Solvation Sheath Stabilizing High-Voltage Lithium Metal Batteries)[J].纳微快报（英文）,2022(09):147-159

solva,Lillhigh

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