Synergistic functional additives on cycling performance of silicon-carbon composite anode in pouch cells

IF 8.4 1区 材料科学 Q1 CHEMISTRY, PHYSICAL
Jun Cheng, Zhenyu Huang, Anqi Lu, Aiqi He, Yuxuan Shao, Yuxin Fan, Yunhui Huang
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引用次数: 0

Abstract

With increasing application demands of electronics and electric vehicles, the energy density of lithium-ion batteries (LIBs) is expected to be higher and higher. The silicon-based anode materials have triggered global research interest due to low operating voltage and high specific capacity. However, for the Si-based anode, the large volume change during cycling causes cracking and pulverization of Si particles, leading to the sluggish kinetics and poor cycle life. In this work, fluoroethylene carbonate (FEC) and lithium bis(fluorosulfonyl)imide (LiFSI) are used as synergistic functional additives to enhance the performance of silicon–carbon (Si–C) composite anode in pouch cell. The properties of solid electrolyte interphase (SEI) formed on the surface of Si–C composite anode have been systematically investigated. The images of different electrolytes infiltration and gas production after formation are analyzed with ultrasonic transmission scanning technique. DFT calculations are used to illustrate the mechanism. All date collection is at pouch cell level, which is more persuasive.

Abstract Image

功能添加剂对袋式电池中硅碳复合阳极循环性能的协同作用
随着电子产品和电动汽车应用需求的不断增长,锂离子电池(LIB)的能量密度预计会越来越高。硅基负极材料因工作电压低、比容量高而引发了全球的研究兴趣。然而,对于硅基负极而言,循环过程中较大的体积变化会导致硅颗粒开裂和粉化,从而导致动力学缓慢和循环寿命缩短。在这项研究中,氟碳酸乙烯(FEC)和双(氟磺酰)亚胺锂(LiFSI)被用作协同功能添加剂,以提高袋式电池中硅-碳(Si-C)复合负极的性能。我们系统地研究了在硅碳复合阳极表面形成的固体电解质相(SEI)的特性。利用超声波透射扫描技术分析了不同电解质渗透和形成后气体产生的图像。并使用 DFT 计算来说明其机理。所有数据的收集都是在小袋电池层面上进行的,这更具说服力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Journal of Materiomics
Journal of Materiomics Materials Science-Metals and Alloys
CiteScore
14.30
自引率
6.40%
发文量
331
审稿时长
37 days
期刊介绍: The Journal of Materiomics is a peer-reviewed open-access journal that aims to serve as a forum for the continuous dissemination of research within the field of materials science. It particularly emphasizes systematic studies on the relationships between composition, processing, structure, property, and performance of advanced materials. The journal is supported by the Chinese Ceramic Society and is indexed in SCIE and Scopus. It is commonly referred to as J Materiomics.
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