The recent proliferation of wearable electronics has kindled an increasing demand for energy storage technology with flexibility, good levels of safety and high ionic conductivity. In this regard, flexible solid-state aqueous batteries are currently considered to be promising candidates as power supplies for wearable electronic devices. Recently, binder-free nanoarrayed composites have have shown great potential for use in high-performance flexible solid-state aqueous batteries due to the advantages of their short ion diffusion length, well-ordered structure, and large surface areas for abundant reaction sites. This review focuses on recent developments in nanoarrayed composites in terms of the design and delivery of advanced electrode materials in flexible solid-state aqueous batteries, including monovalent ion batteries, multivalent ion batteries, alkaline batteries, etc., with typical examples highlighted and discussed. Furthermore, we focus on the merits and challenges of na...

中文翻译：

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用于柔性固态水性电池的纳米阵列的体系结构设计的最新进展

可穿戴电子设备的近来激增，激发了对具有灵活性，良好安全性和高离子传导性的储能技术的需求。在这方面，当前认为柔性固态水性电池作为可穿戴电子设备的电源是有前途的候选者。近来，无粘合剂的纳米阵列复合材料由于其短的离子扩散长度，有序的结构和较大的反应区域表面积而具有显示出用于高性能柔性固态水性电池的巨大潜力。这篇综述着眼于纳米阵列复合材料的最新发展，包括柔性固态水性电池（包括单价离子电池）中高级电极材料的设计和交付，多价离子电池，碱性电池等，并突出并讨论了典型示例。此外，我们专注于自然的优点和挑战。