Detection of high-valent iron species in alloyed oxidic cobaltates for catalysing the oxygen evolution reaction

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作者
Nancy Li
Ryan G. Hadt
Dugan Hayes
Lin X. Chen
Daniel G. Nocera
机构
[1] Harvard University,Department of Chemistry and Chemical Biology
[2] Argonne National Laboratory,Chemical Sciences and Engineering Division
[3] California Institute of Technology,Division of Chemistry and Chemical Engineering
[4] University of Rhode Island,Department of Chemistry
[5] Northwestern University,Department of Chemistry
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Nature Communications | / 12卷
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摘要
Iron alloying of oxidic cobaltate catalysts results in catalytic activity for oxygen evolution on par with Ni-Fe oxides in base but at much higher alloying compositions. Zero-field 57Fe Mössbauer spectroscopy and X-ray absorption spectroscopy (XAS) are able to clearly identify Fe4+ in mixed-metal Co-Fe oxides. The highest Fe4+ population is obtained in the 40–60% Fe alloying range, and XAS identifies the ion residing in an octahedral oxide ligand field. The oxygen evolution reaction (OER) activity, as reflected in Tafel analysis of CoFeOx films in 1 M KOH, tracks the absolute concentration of Fe4+. The results reported herein suggest an important role for the formation of the Fe4+ redox state in activating cobaltate OER catalysts at high iron loadings.
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