Tuning Octahedron Sites of CoV 2 O 4 via Cationic Competition for Efficient Oxygen Evolution Reaction

Doping transition metal oxide spinels with metal ions represents a significant strategy for optimizing the electronic structure of electrocatalysts. Herein, a bimetallic Fe and Ru doping strategy to fine-tune the crystal structure of CoV O spinel for highly enhanced oxygen evolution reaction (OER) i...

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Published in:Small (Weinheim an der Bergstrasse, Germany) Germany), 2024-10, Vol.20 (43), p.e2402402
Main Authors: Lv, Yuan-Hong, Wei, Shuai, Yi, Sha-Sha, Duan, Yan-Xin, Cui, Rong-Chao, Yang, Guang, Liu, Zhong-Yi, Chen, Jing-Huo, Yue, Xin-Zheng
Format: Article
Language:English
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Summary:Doping transition metal oxide spinels with metal ions represents a significant strategy for optimizing the electronic structure of electrocatalysts. Herein, a bimetallic Fe and Ru doping strategy to fine-tune the crystal structure of CoV O spinel for highly enhanced oxygen evolution reaction (OER) is presented performance. The incorporation of Fe and Ru is observed at octahedral sites within the CoV O structure, effectively modulating the electronic configuration of Co. Density functional theory calculations have confirmed that Fe acts as a novel reactive site, replacing V. Additionally, the synergistic effect of Fe, Co, and Ru effectively optimizes the Gibbs free energy of the intermediate species, reduces the reaction energy barrier, and accelerates the kinetics toward OER. As expected, the best-performing CoVFe Ru O displays a low overpotential of 240 mV (@10 mA cm ) and a remarkably low Tafel slope of 38.9 mV dec , surpassing that of commercial RuO . Moreover, it demonstrates outstanding long-term durability lasting for 72 h. This study provides valuable insights for the design of highly active polymetallic spinel electrocatalysts for energy conversion applications.
ISSN:1613-6810
1613-6829
DOI:10.1002/smll.202402402