Homogeneously dispersed multimetal oxygen-evolving catalysts

Bo Zhang; X. R. Zheng; Oleksandr Voznyy; Riccardo Comin; Michal Bajdich; Max García‐Melchor; Lili Han; Jixian Xu; Min Liu; Lirong Zheng; F. Pelayo Garcı́a de Arquer; Cao‐Thang Dinh; Fengjia Fan; Mingjian Yuan; Emre Yassitepe; Ning Chen; Tom Regier; Peng Fei Liu; Yuhang Li; Phil De Luna; Alyf Janmohamed; Huolin L. Xin; Hua Gui Yang; Aleksandra Vojvodić; Edward H. Sargent

doi:10.1126/science.aaf1525

Homogeneously dispersed multimetal oxygen-evolving catalysts

Bo Zhang(East China University of Science and Technology), X. R. Zheng(Tianjin University), Oleksandr Voznyy(University of Toronto), Riccardo Comin(University of Toronto), Michal Bajdich(SLAC National Accelerator Laboratory), Max García‐Melchor(SLAC National Accelerator Laboratory), Lili Han(Tianjin University), Jixian Xu(University of Toronto), Min Liu(University of Toronto), Lirong Zheng(Chinese Academy of Sciences), F. Pelayo Garcı́a de Arquer(University of Toronto), Cao‐Thang Dinh(University of Toronto), Fengjia Fan(University of Toronto), Mingjian Yuan(University of Toronto), Emre Yassitepe(University of Toronto), Ning Chen(Canadian Light Source (Canada)), Tom Regier(Canadian Light Source (Canada)), Peng Fei Liu(East China University of Science and Technology), Yuhang Li(East China University of Science and Technology), Phil De Luna(University of Toronto), Alyf Janmohamed(University of Toronto), Huolin L. Xin(Brookhaven National Laboratory), Hua Gui Yang(East China University of Science and Technology), Aleksandra Vojvodić(SLAC National Accelerator Laboratory), Edward H. Sargent(University of Toronto)

Science

March 25, 2016

10.1126/science.aaf1525

Cited by 2,412Open Access

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Abstract

Earth-abundant first-row (3d) transition metal-based catalysts have been developed for the oxygen-evolution reaction (OER); however, they operate at overpotentials substantially above thermodynamic requirements. Density functional theory suggested that non-3d high-valency metals such as tungsten can modulate 3d metal oxides, providing near-optimal adsorption energies for OER intermediates. We developed a room-temperature synthesis to produce gelled oxyhydroxides materials with an atomically homogeneous metal distribution. These gelled FeCoW oxyhydroxides exhibit the lowest overpotential (191 millivolts) reported at 10 milliamperes per square centimeter in alkaline electrolyte. The catalyst shows no evidence of degradation after more than 500 hours of operation. X-ray absorption and computational studies reveal a synergistic interplay between tungsten, iron, and cobalt in producing a favorable local coordination environment and electronic structure that enhance the energetics for OER.

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