用于高性能锌离子电池的氢氧化锰纳米线阵列的合成

The Synthesis of Manganese Hydroxide Nanowire Arrays for a High-Performance Zinc-Ion Battery.

作者信息

Gong Jiangfeng, Zhu Bingxin, Zhang Zhupeng, Xiang Yuanyuan, Tang Chunmei, Ding Qingping, Wu Xiang

机构信息

College of Science, Department of Physics, Hohai University, Nanjing 210098, China.

Ames Laboratory, Department of Physics and Astronomy, Iowa State University, Ames, IA 50011, USA.

出版信息

Nanomaterials (Basel). 2022 Jul 22;12(15):2514. doi: 10.3390/nano12152514.

DOI:10.3390/nano12152514

PMID:35893482

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9331603/

Abstract

The morphology, microstructure as well as the orientation of cathodic materials are the key issues when preparing high-performance aqueous zinc-ion batteries (ZIBs). In this paper, binder-free electrode Mn(OH) nanowire arrays were facilely synthesized via electrodeposition. The nanowires were aligned vertically on a carbon cloth. The as-prepared Mn(OH) nanowire arrays were used as cathode to fabricate rechargeable ZIBs. The vertically aligned configuration is beneficial to electron transport and the free space between the nanowires can provide more ion-diffusion pathways. As a result, Mn(OH) nanowire arrays yield a high specific capacitance of 146.3 Ma h g at a current density of 0.5 A g. They also demonstrates ultra-high diffusion coefficients of 4.5 × 10~~1.0 × 10 cm s during charging and 1.0 × 10~~2.7 × 10 cm s during discharging processes, which are one or two orders of magnitude higher than what is reported in the studies. Furthermore, the rechargeable Zn//Mn(OH) battery presents a good capacity retention of 61.1% of the initial value after 400 cycles. This study opens a new avenue to boost the electrochemical kinetics for high-performance aqueous ZIBs.

摘要

在制备高性能水系锌离子电池（ZIBs）时，阴极材料的形态、微观结构以及取向是关键问题。本文通过电沉积法轻松合成了无粘结剂电极Mn(OH)纳米线阵列。这些纳米线垂直排列在碳布上。所制备的Mn(OH)纳米线阵列用作阴极来制造可充电的ZIBs。垂直排列的结构有利于电子传输，纳米线之间的自由空间可以提供更多的离子扩散途径。结果，Mn(OH)纳米线阵列在电流密度为0.5 A g时产生了146.3 mA h g的高比电容。它们在充电过程中的扩散系数高达4.5×10⁻¹⁰至1.0×10⁻⁹ cm² s⁻¹，在放电过程中的扩散系数为1.0×10⁻¹⁰至2.7×10⁻⁹ cm² s⁻¹，比以往研究报道的值高出一到两个数量级。此外，可充电的Zn//Mn(OH)电池在400次循环后仍保持了初始值61.1%的良好容量保持率。这项研究为提升高性能水系ZIBs的电化学动力学开辟了一条新途径。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2d4e/9331603/9afc10d30414/nanomaterials-12-02514-g001.jpg

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用于高性能锌离子电池的氢氧化锰纳米线阵列的合成

The Synthesis of Manganese Hydroxide Nanowire Arrays for a High-Performance Zinc-Ion Battery.

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