Exploration about the Electrolyte System of Li-ion Batteries for the Wide Temperature Range Operation

IF 2.1 4区 材料科学 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY
Ok-Jeong Kim, Yeong-Hyun Cho, Jung-Jin Kang, Young-Sang Yu, Chunjoong Kim, Gi-Yeong Yun
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引用次数: 0

Abstract

Lithium-ion batteries (LIBs) have garnered great attention owing to their high specific energy and power compared with other batteries. Currently, the use of LIBs is expanded to the power source of mid- or large-sized devices such as electric vehicles, energy storage devices, and so on. For the stable operation of such devices, LIBs should deliver their battery performance under the daily-life temperature, i.e., from − 20 to 60 °C. In so far as, direct modification of the electrolyte system is considered the most effective among various strategies. Herein, we investigated various carbonate-based electrolyte systems for LIBs. The effect of the compositions and additives of the electrolyte on the battery performance was scrutinized. Therefore, we could provide an understanding of the electrolyte design rule, which enables LIBs to work under the desired temperature.

Graphical Abstract

Abstract Image

探索锂离子电池在宽温度范围内工作的电解质系统
锂离子电池(LIB)因其比能量和比功率高于其他电池而备受关注。目前,锂离子电池的应用已扩展到中型或大型设备的电源,如电动汽车、储能设备等。为了使这些设备稳定运行,锂离子电池应在日常生活温度下(即零下 20 ℃ 至 60 ℃)发挥电池性能。就目前而言,直接改性电解质系统被认为是各种策略中最有效的一种。在此,我们研究了用于 LIB 的各种碳酸盐电解质体系。我们仔细研究了电解质的成分和添加剂对电池性能的影响。因此,我们可以了解电解液的设计规则,从而使锂电池能够在所需温度下工作。
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来源期刊
Electronic Materials Letters
Electronic Materials Letters 工程技术-材料科学:综合
CiteScore
4.70
自引率
20.80%
发文量
52
审稿时长
2.3 months
期刊介绍: Electronic Materials Letters is an official journal of the Korean Institute of Metals and Materials. It is a peer-reviewed international journal publishing print and online version. It covers all disciplines of research and technology in electronic materials. Emphasis is placed on science, engineering and applications of advanced materials, including electronic, magnetic, optical, organic, electrochemical, mechanical, and nanoscale materials. The aspects of synthesis and processing include thin films, nanostructures, self assembly, and bulk, all related to thermodynamics, kinetics and/or modeling.
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