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

Nancy Li, Ryan G. Hadt, Dugan Hayes, Lin X. Chen, Daniel G. Nocera

2021Nature Communications84 citationsDOIOpen Access PDF

Abstract

Abstract 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 57 Fe Mössbauer spectroscopy and X-ray absorption spectroscopy (XAS) are able to clearly identify Fe 4+ in mixed-metal Co-Fe oxides. The highest Fe 4+ 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 CoFeO x films in 1 M KOH, tracks the absolute concentration of Fe 4+ . The results reported herein suggest an important role for the formation of the Fe 4+ redox state in activating cobaltate OER catalysts at high iron loadings.

Topics & Concepts

X-ray absorption spectroscopyCatalysisOxygen evolutionTafel equationRedoxMössbauer spectroscopyInorganic chemistryOxygenOxidation statePopulationMetalMaterials scienceOxideAbsorption spectroscopyOctahedronChemistryCrystallographyPhysical chemistryMetallurgyCrystal structureElectrochemistryQuantum mechanicsSociologyOrganic chemistryPhysicsDemographyBiochemistryElectrodeElectrocatalysts for Energy ConversionCatalytic Processes in Materials ScienceElectrochemical Analysis and Applications
Detection of high-valent iron species in alloyed oxidic cobaltates for catalysing the oxygen evolution reaction | Litcius