Effective approach to stabilize silicon anode:controllable molecular construction of artificial solid electrolyte interphase

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摘要 Silicon-based materials are considered as the next generation anode to replace graphite due to their low cost and ultra-high theoretical capacity.However,significant volume expansion and contraction occur during charging and discharging processes,leading to the instability of electrode structure and susceptibility to peeling and damage,limiting its application.Constructing controllable molecular artificial solid electrolyte interphase(CMASEI)is an effective approach to address the commercialization of silicon-based anode materials[1].Improving the performance of silicon-based anodes through CMASEI is a multifaceted outcome.

作者 Hongbin Liu Putao Zhang

机构地区 Nanxun Innovation Institute School of Electrical Engineering School of Future Technology

出处《Chinese Journal of Structural Chemistry》 2025年第3期8-9,共2页 结构化学(英文)

基金 supported by the Nanxun Scholars Program for Young Scholars of ZJWEU(No.RC2023021315) the start-up funding for Scientific Research for High-level Talents(No.88106324004) the National Natural Science Foundation of China(No.62304070).

分类号 TM912 [电气工程—电力电子与电力传动]

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Chinese Journal of Structural Chemistry

2025年第3期

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Effective approach to stabilize silicon anode:controllable molecular construction of artificial solid electrolyte interphase

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