V doped hollow Co3O4 nanoprisms with a modulated electronic structure for high-performance oxygen evolution reaction

Yanqiang Li; Junyan Chen; Haojie Dong; Zineng Dong; Chenxi Zhang; Siru Chen

doi:10.1039/D5DT00800J

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V doped hollow Co₃O₄ nanoprisms with a modulated electronic structure for high-performance oxygen evolution reaction†

Yanqiang Li,

^a Junyan Chen,^b Haojie Dong,^a Zineng Dong,^a Chenxi Zhang*^a and Siru Chen

*^b

Author affiliations

* Corresponding authors

^a School of Materials Science and Engineering, North China University of Water Resources and Electric Power, Zhengzhou, China
E-mail: zhangchenxi@ncwu.edu.cn

^b School of Material and Chemical Engineering, Center for Advanced Materials Research, Zhongyuan University of Technology, Zhengzhou, China
E-mail: siruchen@zut.edu.cn

Abstract

The sluggish oxygen evolution reaction (OER) kinetics in water splitting makes it crucial to design highly active OER catalysts. Spinel oxides are considered as promising candidates due to their various compositions, valence states and electronic configurations. This paper reports a facile procedure to prepare V-doped hollow Co₃O₄ nanoprisms for the OER. The introduction of V can effectively modulate the electronic structure of Co₃O₄, therefore improving its intrinsic catalytic activity. The hollow prismatic structure ensures the exposure of catalytically active sites and rapid mass transport, thereby improving the extrinsic catalytic activity. As a result, optimized V-Co₃O₄-5 exhibits a small overpotential of 288 mV at 10 mA cm⁻² with good durability. This work provides an innovative direction for designing efficient OER electrocatalysts via heteroatom doping.

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Article information

DOI: https://doi.org/10.1039/D5DT00800J
Article type: Paper
Submitted: 03 Apr 2025
Accepted: 13 May 2025
First published: 13 May 2025

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Dalton Trans., 2025, Advance Article

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V doped hollow Co₃O₄ nanoprisms with a modulated electronic structure for high-performance oxygen evolution reaction

Y. Li, J. Chen, H. Dong, Z. Dong, C. Zhang and S. Chen, Dalton Trans., 2025, Advance Article , DOI: 10.1039/D5DT00800J

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