Uncovering the Function of a Five-Membered Heterocyclic Solvent-Based Electrolyte for Graphite Anode at Subzero Temperature

Yue Yin; Tianle Zheng; Jiawei ChenYu PengZhong FangYanbing MoCongxiao WangYonggang WangYongyao XiaXiaoli Dong

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Uncovering the Function of a Five-Membered Heterocyclic Solvent-Based Electrolyte for Graphite Anode at Subzero Temperature

机译：Uncovering the Function of a Five-Membered Heterocyclic Solvent-Based Electrolyte for Graphite Anode at Subzero Temperature

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Ethylene carbonate (EC) is taken as the essential electrolyte component in lithium-ion batteries (LIBs) due to its high permittivity and film-forming ability. However, its high melting point (36.4 ℃) and strong solvation energy severely hinder Li~+ transportation and Li+ desolvation process under low temperatures, resulting in capacity loss and even Li plating on graphite anode. Herein, a five-membered heterocyclic compound isoxazole (IZ), similar to EC molecule, is well-formulated to substitute EC for low-temperature operation of graphite anode. It is revealed that IZ with dispersed charge distribution exhibits a weaker solvation ability than EC with highly polar carbonyl group, which induces relatively more anions into the solvation sheath to form contact ion pairs and aggregates. The tamed electrolyte not only exhibits high ionic conductivities over wide-temperature range but also generates an inorganic-rich interphase with low activation barrier for smooth Li+ ions threading. This enables graphite anode with an impressive reversible capacity of 263 mAh g~(-1) at the low temperature of ?30 ℃ (a room-temperature retention of as high as 71.5%), nearly twice higher than graphite with EC-based electrolyte. This study provides an alternative electrolyte recipe to relieve the anxiety of LIBs operated under harsh conditions.

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《Advanced functional materials》 |2023年第21期|2215151.1-2215151.10|共10页
作者
Yue Yin; Tianle Zheng; Jiawei ChenYu PengZhong FangYanbing MoCongxiao WangYonggang WangYongyao XiaXiaoli Dong;
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Department of Chemistry and Shanghai Key Laboratory of Molecular Catalysis and Innovative Materials Institute of New Energy iChEM (Collaborative Innovation Center of Chemistry for Energy Materials) Fudan University Shanghai 200433, P. R. China;

Department of Chemistry College of Sciences Shanghai University Shanghai 200444, P. R. China;

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five-membered heterocyclic solvent isoxazole; graphite anodes; Li+-intercalation at low temperatures; lithium-ion batteries; solid-electrolyte interphases;

Uncovering the Function of a Five-Membered Heterocyclic Solvent-Based Electrolyte for Graphite Anode at Subzero Temperature

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