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首页> 外文期刊>Journal of Materials Chemistry, A. Materials for energy and sustainability >Recent progress of dimensionally designed electrode nanomaterials in aqueous electrochemical energy storage
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Recent progress of dimensionally designed electrode nanomaterials in aqueous electrochemical energy storage

机译:尺寸设计电极纳米材料在水性电化学能量储存中的最新进展

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摘要

Uneven energy distribution in space-time has led to an increase in the demand for energy storage devices. In recent years, aqueous energy storage systems have attracted considerable attention because of their low manufacturing costs and superior safety. For next-generation energy storage systems, the cyclic stability of the electrode material and exceptional energy storage performance are necessary. This review briefly summarizes the performance of aqueous electrochemical energy storage devices based on nanodimensions, including aqueous sodium-ion batteries, aqueous aluminum-ion batteries, aqueous zinc-ion batteries, aqueous supercapacitors, and other aqueous electric energy storage systems. Furthermore, to reveal the mechanism of the energy storage performance among various electrode materials with varying dimensions, we highlight the recent significant progress of novel electrode materials based on their rational design, controlled synthesis, and corresponding energy storage performance.
机译:时空能量分布不均导致了对储能设备的需求增加。近年来,水性储能系统因其制造成本低、安全性好而受到了广泛关注。对于下一代储能系统,电极材料的循环稳定性和优异的储能性能是必要的。本文简要综述了基于纳米尺寸的水性电化学储能装置的性能,包括水性钠离子电池、水性铝离子电池、水性锌离子电池、水性超级电容器和其他水性电储能系统。此外,为了揭示各种不同尺寸的电极材料之间的储能性能机理,我们重点介绍了基于合理设计、可控合成和相应储能性能的新型电极材料的最新重大进展。

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