用于高速率和长寿命电荷存储的层状双氢氧化物（LDH）微观结构中不匹配的集成应变与缺陷工程

Mismatching integration-enabled strains and defects engineering in LDH microstructure for high-rate and long-life charge storage.

作者信息

Guo Wei, Dun Chaochao, Yu Chang, Song Xuedan, Yang Feipeng, Kuang Wenzheng, Xie Yuanyang, Li Shaofeng, Wang Zhao, Yu Jinhe, Fu Guosheng, Guo Jinghua, Marcus Matthew A, Urban Jeffrey J, Zhang Qiuyu, Qiu Jieshan

机构信息

State Key Lab of Fine Chemicals, School of Chemical Engineering, Liaoning Key Lab for Energy Materials and Chemical Engineering, Dalian University of Technology, Dalian, 116024, China.

School of Chemistry and Chemical Engineering, Key Laboratory of Special Functional and Smart Polymer Materials of Ministry of Industry and Information Technology, Northwestern Polytechnical University, Xian, 710072, China.

出版信息

Nat Commun. 2022 Mar 17;13(1):1409. doi: 10.1038/s41467-022-28918-0.

DOI:10.1038/s41467-022-28918-0

PMID:35301288

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8931012/

Abstract

Layered double hydroxides (LDH) have been extensively investigated for charge storage, however, their development is hampered by the sluggish reaction dynamics. Herein, triggered by mismatching integration of Mn sites, we configured wrinkled Mn/NiCo-LDH with strains and defects, where promoted mass & charge transport behaviors were realized. The well-tailored Mn/NiCo-LDH displays a capacity up to 518 C g (1 A g), a remarkable rate performance (78%@100 A g) and a long cycle life (without capacity decay after 10,000 cycles). We clarified that the moderate electron transfer between the released Mn species and Co serves as the pre-step, while the compressive strain induces structural deformation with promoted reaction dynamics. Theoretical and operando investigations further demonstrate that the Mn sites boost ion adsorption/transport and electron transfer, and the Mn-induced effect remains active after multiple charge/discharge processes. This contribution provides some insights for controllable structure design and modulation toward high-efficient energy storage.

摘要

层状双氢氧化物（LDH）已被广泛研究用于电荷存储，然而，其发展受到缓慢反应动力学的阻碍。在此，受锰位点不匹配整合的触发，我们构建了具有应变和缺陷的褶皱状Mn/NiCo-LDH，实现了促进的质量和电荷传输行为。精心定制的Mn/NiCo-LDH表现出高达518 C g（1 A g）的容量、卓越的倍率性能（100 A g时为78%）和长循环寿命（10000次循环后无容量衰减）。我们阐明，释放的锰物种与钴之间适度的电子转移作为预步骤，而压缩应变诱导结构变形并促进反应动力学。理论和原位研究进一步表明，锰位点促进离子吸附/传输和电子转移，并且锰诱导效应在多次充放电过程后仍保持活性。这一贡献为高效储能的可控结构设计和调控提供了一些见解。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2436/8931012/20ea64711676/41467_2022_28918_Fig1_HTML.jpg

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用于高速率和长寿命电荷存储的层状双氢氧化物（LDH）微观结构中不匹配的集成应变与缺陷工程

Mismatching integration-enabled strains and defects engineering in LDH microstructure for high-rate and long-life charge storage.

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