Issues and strategies of cathode materials for mild aqueous static zinc-ion batteries

IF 9.1 Q1 ENGINEERING, CHEMICAL Green Chemical Engineering Pub Date : 2023-09-01 DOI:10.1016/j.gce.2023.01.001
Wei Zhong , Jiahui Zhang , Zongmiao Li , Zeyu Shen , Shichao Zhang , Xinyang Wang , Yingying Lu
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Abstract

Researchers prefer mild aqueous static zinc-ion batteries (ASZIBs) for their distinct benefits of excellent safety, abundant zinc resources, low cost, and high energy density. However, at the moment there are some issues with the cathode materials of mild ASZIBs, including dissolution, by-products, poor conductivity, and a contentious energy storage system. Consequently, there are numerous difficulties in the development of high-performance mild ASZIBs cathode materials. This overview examines the mechanisms for storing energy and the developments in inorganic, organic, and other novel cathode materials that have emerged in recent years. At the same time, three solutions—structural engineering, interface engineering, and reaction pathway engineering—as well as the difficulties now faced by the cathode materials of mild ASZIBs are forcefully introduced. Finally, a prospect is made regarding the evolution of cathode materials in the future.

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软水性静态锌离子电池正极材料的问题与对策
研究人员更喜欢温和的水性静态锌离子电池(ASZIBs),因为它们具有优异的安全性、丰富的锌资源、低成本和高能量密度。然而,目前轻度ASZIB的阴极材料存在一些问题,包括溶解、副产物、导电性差以及有争议的储能系统。因此,在开发高性能温和的ASZIBs阴极材料方面存在许多困难。这篇综述考察了近年来出现的无机、有机和其他新型阴极材料的储能机制和发展。同时,着重介绍了三种解决方案——结构工程、界面工程和反应途径工程——以及目前温和ASZIB阴极材料面临的困难。最后对阴极材料的发展前景进行了展望。
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来源期刊
Green Chemical Engineering
Green Chemical Engineering Process Chemistry and Technology, Catalysis, Filtration and Separation
CiteScore
11.60
自引率
0.00%
发文量
58
审稿时长
51 days
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