Authors
Bo Zhang, Lie Wang, Zhen Cao, Sergey M Kozlov, F Pelayo García de Arquer, Cao Thang Dinh, Jun Li, Ziyun Wang, Xueli Zheng, Longsheng Zhang, Yunzhou Wen, Oleksandr Voznyy, Riccardo Comin, Phil De Luna, Tom Regier, Wenli Bi, E Ercan Alp, Chih-Wen Pao, Lirong Zheng, Yongfeng Hu, Yujin Ji, Youyong Li, Ye Zhang, Luigi Cavallo, Huisheng Peng, Edward H Sargent
Publication date
2020/12
Journal
Nature Catalysis
Volume
3
Issue
12
Pages
985-992
Publisher
Nature Publishing Group
Description
Multimetal oxyhydroxides have recently been reported that outperform noble metal catalysts for oxygen evolution reaction (OER). In such 3d-metal-based catalysts, the oxidation cycle of 3d metals has been posited to act as the OER thermodynamic-limiting process; however, further tuning of its energetics is challenging due to similarities among the electronic structures of neighbouring 3d metal modulators. Here we report a strategy to reprogram the Fe, Co and Ni oxidation cycles by incorporating high-valence transition-metal modulators X (X = W, Mo, Nb, Ta, Re and MoW). We use in situ and ex situ soft and hard X-ray absorption spectroscopies to characterize the oxidation transition in modulated NiFeX and FeCoX oxyhydroxide catalysts, and conclude that the lower OER overpotential is facilitated by the readier oxidation transition of 3d metals enabled by high-valence modulators. We report an ~17-fold mass …
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Scholar articles
B Zhang, L Wang, Z Cao, SM Kozlov… - Nature Catalysis, 2020