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Oxygen-Atom Defect Formation in Polyoxovanadate Clusters via Proton-Coupled Electron Transfer

Eric Schreiber, Alex A. Fertig, William W. Brennessel, Ellen M. Matson

2022Journal of the American Chemical Society41 citationsDOIOpen Access PDF

Abstract

The uptake of hydrogen atoms (H-atoms) into reducible metal oxides has implications in catalysis and energy storage. However, outside of computational modeling, it is difficult to obtain insight into the physicochemical factors that govern H-atom uptake at the atomic level. Here, we describe oxygen-atom vacancy formation in a series of hexavanadate assemblies via proton-coupled electron transfer, presenting a novel pathway for the formation of defect sites at the surface of redox-active metal oxides. Kinetic investigations reveal that H-atom transfer to the metal oxide surface occurs through concerted proton–electron transfer, resulting in the formation of a transient VIII–OH2 moiety that, upon displacement of the water ligand with an acetonitrile molecule, forms the oxygen-deficient polyoxovanadate-alkoxide cluster. Oxidation state distribution of the cluster core dictates the affinity of surface oxido ligands for H-atoms, mirroring the behavior of reducible metal oxide nanocrystals. Ultimately, atomistic insights from this work provide new design criteria for predictive proton-coupled electron-transfer reactivity of terminal M═O moieties at the surface of nanoscopic metal oxides.

Topics & Concepts

ChemistryElectron transferReactivity (psychology)Proton-coupled electron transferMetalRedoxProtonOxideCluster (spacecraft)OxygenMoleculeLigand (biochemistry)PhotochemistryCatalysisChemical physicsMoietyCrystallographyComputational chemistryInorganic chemistryStereochemistryOrganic chemistryProgramming languagePathologyAlternative medicineBiochemistryReceptorPhysicsQuantum mechanicsComputer scienceMedicinePolyoxometalates: Synthesis and ApplicationsMetal-Organic Frameworks: Synthesis and ApplicationsAdvanced Photocatalysis Techniques
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