化工与机械进展

在众多的二次电池中，水系锌离子电池（Aqueous zinc-ion batteries, AZIBs）因其成本低、安全性高、环境友好以及锌金属负极具有高的理论容量（820 mAh g-¹）和低的氧化还原电位（-0.76 V vs. SHE）等优势而受到广泛关注。然而，锌离子电池正极材料存在动力学缓慢、库仑效率低和结构不稳定等现象，导致AZIBs的商业化应用仍面临严峻的挑战。金属有机框架（Metal-Organic Frameworks, MOFs）及其衍生物由于具有高比表面积、可调孔隙结构、丰富活性位点以及结构功能可设计性等优点，为解决AZIBs中的关键科学问题提供了新思路。本文系统阐述了MOFs及其衍生材料在AZIBs正极中的应用研究进展，详细分析了MOF正极材料的结构特性与设计策略，探讨了当前面临的挑战并展望了未来发展方向，为高性能锌离子电池的设计与开发提供参考。

水系锌离子电池；正极材料；金属有机框架；结构特性；研究进展

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