Recent progress of self-supported air electrodes for flexible Zn-air batteries

IF 14 1区 化学 Q1 CHEMISTRY, APPLIED
Chen Xu , Yanli Niu , Vonika Ka-Man Au , Shuaiqi Gong , Xuan Liu , Jianying Wang , Deli Wu , Zuofeng Chen
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引用次数: 0

Abstract

Smart wearable devices are regarded to be the next prevailing technology product after smartphones and smart homes, and thus there has recently been rapid development in flexible electronic energy storage devices. Among them, flexible solid-state zinc-air batteries have received widespread attention because of their high energy density, good safety, and stability. Efficient bifunctional oxygen electrocatalysts are the primary consideration in the development of flexible solid-state zinc-air batteries, and self-supported air cathodes are strong candidates because of their advantages including simplified fabrication process, reduced interfacial resistance, accelerated electron transfer, and good flexibility. This review outlines the research progress in the design and construction of nanoarray bifunctional oxygen electrocatalysts. Starting from the configuration and basic principles of zinc-air batteries and the strategies for the design of bifunctional oxygen electrocatalysts, a detailed discussion of self-supported air cathodes on carbon and metal substrates and their uses in flexible zinc-air batteries will follow. Finally, the challenges and opportunities in the development of flexible zinc-air batteries will be discussed.

Abstract Image

柔性锌空气电池自支撑空气电极研究进展
智能可穿戴设备被认为是继智能手机和智能家居之后的下一个主流技术产品,因此近年来柔性电子储能设备得到了快速发展。其中,柔性固态锌空气电池因其能量密度高、安全性好、稳定性好而受到广泛关注。高效的双功能氧电催化剂是开发柔性固态锌空气电池的首要考虑因素,而自支撑式空气阴极因其制造工艺简化、界面阻力降低、电子转移加速和柔韧性好等优点而成为强有力的候选材料。本文综述了纳米阵列双功能氧电催化剂的设计与构建的研究进展。从锌空气电池的结构、基本原理和双功能氧电催化剂的设计策略出发,详细讨论了碳基和金属基自支撑空气阴极及其在柔性锌空气电池中的应用。最后,讨论了柔性锌空气电池发展面临的挑战和机遇。
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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CiteScore
23.60
自引率
0.00%
发文量
2875
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