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Electronic Structure Engineering of LiCoO2 toward Enhanced Oxygen Electrocatalysis

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posted on 2024-11-16, 02:43 authored by Xiaobo Zheng, Yaping Chen, Xusheng Zheng, Guoqiang Zhao, Kun Rui, Peng Li, Xun XuXun Xu, Zhenxiang ChengZhenxiang Cheng, Shi DouShi Dou, Wenping Sun
Developing low-cost and efficient electrocatalysts for the oxygen evolution reaction and oxygen reduction reaction is of critical significance to the practical application of some emerging energy storage and conversion devices (e.g., metal-air batteries, water electrolyzers, and fuel cells). Lithium cobalt oxide is a promising nonprecious metal-based electrocatalyst for oxygen electrocatalysis; its activity, however, is still far from the requirements of practical applications. Here, a new LiCoO 2 -based electrocatalyst with nanosheet morphology is developed by a combination of Mg doping and shear force-assisted exfoliation strategies toward enhanced oxygen reduction and evolution reaction kinetics. It is demonstrated that the coupling effect of Mg doping and the exfoliation can effectively modulate the electronic structure of LiCoO 2 , in which Co 3+ can be partially oxidized to Co 4+ and the Co-O covalency can be enhanced, which is closely associated with the improvement of intrinsic activity. Meanwhile, the unique nanosheet morphology also helps to expose more active Co species. This work offers new insights into deploying the electronic structure engineering strategy for the development of efficient and durable catalysts for energy applications.

Funding

Lithium-Ion Conducting Sulfide Cathodes for All-Solid-State Li–S Batteries

Australian Research Council

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Development of the next generation battery storage system for smart grid

Australian Research Council

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History

Citation

Zheng, X., Chen, Y., Zheng, X., Zhao, G., Rui, K., Li, P., Xu, X., Cheng, Z., Dou, S. Xue. & Sun, W. (2019). Electronic Structure Engineering of LiCoO2 toward Enhanced Oxygen Electrocatalysis. Advanced Energy Materials, 9 (16), 1803482-1-1803482-10.

Journal title

Advanced Energy Materials

Volume

9

Issue

16

Language

English

RIS ID

134044

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