Research Progress of Liquid Electrolytes for Lithium Metal Batteries at High Temperatures

Qianna Nie; Wenlei Luo; Yong Li; Cheng Yang; Haijuan Pei; Rui Guo; Wei Wang; Farshad Boorboor Ajdari; Jiangxuan Song

doi:10.1002/smll.202302690

Research Progress of Liquid Electrolytes for Lithium Metal Batteries at High Temperatures

Qianna Nie
, Wenlei Luo
, Yong Li
, Cheng Yang
, Haijuan Pei
, Rui Guo
, Wei Wang
, Farshad Boorboor Ajdari
, Jiangxuan Song

材料科学与工程学院

Xi'an Jiaotong University
Academy of Military Medical Science China
Shanghai Institute of Space Power Sources
University of Kashan

科研成果: 期刊稿件 › 文献综述 › 同行评审

37 引用（Scopus）

摘要

Lithium metal batteries (LMBs) are the most promising high energy density energy storage technologies for electric vehicles, military, and aerospace applications. LMBs require further improvement to operate efficiently when chronically or routinely exposed to high temperatures. Electrolyte engineering with high temperature tolerance and electrode compatibility has been essential to the development of LMBs. In this review, the primary obstacles to achieving high-temperature LMBs are first explored. Subsequently, electrolyte tailoring options, such as lithium salt optimization, solvation structure modification, and the addition of additives are reviewed in detail. In addition, the feasibility of utilizing LMBs at high temperatures has been investigated. In conclusion, this study provides insights and perspectives for future research on electrolyte design at high temperatures.

源语言	英语
文章编号	2302690
期刊	Small
卷	19
期	46
DOI	https://doi.org/10.1002/smll.202302690
出版状态	已出版 - 15 11月 2023

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10.1002/smll.202302690

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abstract = "Lithium metal batteries (LMBs) are the most promising high energy density energy storage technologies for electric vehicles, military, and aerospace applications. LMBs require further improvement to operate efficiently when chronically or routinely exposed to high temperatures. Electrolyte engineering with high temperature tolerance and electrode compatibility has been essential to the development of LMBs. In this review, the primary obstacles to achieving high-temperature LMBs are first explored. Subsequently, electrolyte tailoring options, such as lithium salt optimization, solvation structure modification, and the addition of additives are reviewed in detail. In addition, the feasibility of utilizing LMBs at high temperatures has been investigated. In conclusion, this study provides insights and perspectives for future research on electrolyte design at high temperatures.",

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AU - Nie, Qianna

AU - Luo, Wenlei

AU - Li, Yong

AU - Yang, Cheng

AU - Pei, Haijuan

AU - Guo, Rui

AU - Wang, Wei

AU - Ajdari, Farshad Boorboor

AU - Song, Jiangxuan

PY - 2023/11/15

Y1 - 2023/11/15

N2 - Lithium metal batteries (LMBs) are the most promising high energy density energy storage technologies for electric vehicles, military, and aerospace applications. LMBs require further improvement to operate efficiently when chronically or routinely exposed to high temperatures. Electrolyte engineering with high temperature tolerance and electrode compatibility has been essential to the development of LMBs. In this review, the primary obstacles to achieving high-temperature LMBs are first explored. Subsequently, electrolyte tailoring options, such as lithium salt optimization, solvation structure modification, and the addition of additives are reviewed in detail. In addition, the feasibility of utilizing LMBs at high temperatures has been investigated. In conclusion, this study provides insights and perspectives for future research on electrolyte design at high temperatures.

AB - Lithium metal batteries (LMBs) are the most promising high energy density energy storage technologies for electric vehicles, military, and aerospace applications. LMBs require further improvement to operate efficiently when chronically or routinely exposed to high temperatures. Electrolyte engineering with high temperature tolerance and electrode compatibility has been essential to the development of LMBs. In this review, the primary obstacles to achieving high-temperature LMBs are first explored. Subsequently, electrolyte tailoring options, such as lithium salt optimization, solvation structure modification, and the addition of additives are reviewed in detail. In addition, the feasibility of utilizing LMBs at high temperatures has been investigated. In conclusion, this study provides insights and perspectives for future research on electrolyte design at high temperatures.

KW - electrolytes

KW - high temperatures

KW - lithium metal batteries

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M3 - 文献综述

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Research Progress of Liquid Electrolytes for Lithium Metal Batteries at High Temperatures

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