The rechargeable aluminum-ion battery with different composite cathodes: A review

Journal of Composites and Compounds Pub Date : 2020-05-01 DOI:10.29252/JCC.2.3.5

Leyla Saei Fard, N. Peighambardoust, Ho Won Jang, A. Dehghan, Niloufar Nehzat Khosh Saligheh, Marjan Iranpour, Mitra Isvand Rajabi

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引用次数: 4

Abstract

Digital cameras, laptop computers, cellular phones, as well as many portable electronic devices require batteries for powering. Based on the electrolyte type, electrolytic batteries can be categorized into solid-based, liquid-based, and ionic-based batteries. Aluminum ion batteries (AIBs) have some promising properties such as low cost, high safety, and high specific volumetric capacity. Nevertheless, in order for AIBs to be extensively used, developing novel electrode materials possessing high energy density is requires. This is mainly dependent on the cathode materials. However, these cathode materials have some drawbacks such as structural decomposition, low battery capacity, low discharge voltage, and volume expansion resulted from the intercalation of large-sized ions. Therefore, future research might concentrate on the investigation of cheaper electrolyte and novel cathode materials for enhancement of energy density and working voltage. This review focuses on the recent cathodes, in particular, composite cathode materials, including graphite, CuS, V2O5, Li3VO4@C, VS4/rGO, and Ni3S2/graphene.

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不同复合阴极的可充电铝离子电池研究进展

数码相机、笔记本电脑、移动电话以及许多便携式电子设备都需要电池供电。根据电解液类型的不同，电解电池可分为固体电池、液体电池和离子电池。铝离子电池具有成本低、安全性高、比容容量大等优点。然而，为了使AIBs得到广泛应用，需要开发具有高能量密度的新型电极材料。这主要取决于正极材料。然而，这些正极材料存在结构分解、电池容量低、放电电压低、大尺寸离子插入导致体积膨胀等缺点。因此，未来的研究可能集中在研究更便宜的电解质和新型阴极材料，以提高能量密度和工作电压。本文综述了近年来阴极的研究进展，特别是石墨、cu、V2O5、Li3VO4@C、VS4/rGO、Ni3S2/石墨烯等复合阴极材料。

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Journal of Composites and Compounds

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