回顾作为高性能锂电池阴极材料的金属氟化物

Information & Functional Materials Pub Date : 2024-03-18 DOI:10.1002/ifm2.7

Ao Liu, Huadong Yuan, Yao Wang, Yujing Liu, Jianmin Luo, J. Nai, Xinyong Tao

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引用次数: 0

摘要

为满足大规模电动汽车市场的需求，迫切需要探索高能量密度的可充电锂（Li）电池。转换型金属氟化物（MFx）具有工作电压高、对环境无毒、成本低和热稳定性高等优点，因此被认为是下一代可充电电池的理想正极材料。在本综述中，我们从容量、放电电位、体积变化、制造方法、晶体结构和成本/丰度等方面介绍了应用于可充电锂电池的最有前途和最可行的 MFx。此外，还简要说明了电化学性能，并指出和详细讨论了最近在循环过程中 MFx 阴极机理方面取得的进展。最后，展望了当前面临的挑战和可能的研究方向，旨在为开发基于 MFx 的阴极提供一些启发。

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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Reviewing metal fluorides as the cathode materials for high performance Li batteries

Exploring high‐energy density rechargeable lithium (Li) batteries is urgently needed to meet the demand of the large‐scale electric vehicle market. Conversion‐type metal fluorides (MFx) have been considered as desirable cathode materials for next‐generation rechargeable batteries because of their high operational voltages, environmental non‐toxicity, low cost, and high thermal stability. In this review, we present the most promising and feasible MFx applied in rechargeable Li batteries in terms of capacity, discharge potential, volume change, fabricated methods, crystal structure, and cost/abundance. The electrochemical performance is briefly illustrated, and the recent advances in mechanisms focused on MFx cathodes upon cyclic processes are noted and discussed in detail. Finally, prospects for the current challenges and possible research directions, with the aim to provide some inspiration for the development of MFx‐based cathodes are presented.

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Information & Functional Materials

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