2023
(Invited) Water Oxidation Catalysis with Atomically Defined Active Sites on Nanostructured Materials for Solar Energy Applications
Brudvig G. (Invited) Water Oxidation Catalysis with Atomically Defined Active Sites on Nanostructured Materials for Solar Energy Applications. ECS Meeting Abstracts 2023, MA2023-01: 2149-2149. DOI: 10.1149/ma2023-01372149mtgabs.Peer-Reviewed Original ResearchWater oxidation catalystsMolecular catalystsSolar fuel productionWater oxidationMolecular water oxidation catalystsPhoto-electrochemical water oxidationWater oxidation catalysisNatural photosynthetic systemsPhotoelectrochemical water oxidationMetal oxide surfacesMetal oxide photoanodesFuel productionOxidation catalysisCatalytic performanceOxide photoanodesOxide surfaceNanostructured materialsBioinspired materialsCatalystLimited stabilityActive siteOxide materialsHigh activityPhotosynthetic systemsSolar energy applications
2016
Comparison of heterogenized molecular and heterogeneous oxide catalysts for photoelectrochemical water oxidation
Li W, He D, Sheehan S, He Y, Thorne J, Yao X, Brudvig G, Wang D. Comparison of heterogenized molecular and heterogeneous oxide catalysts for photoelectrochemical water oxidation. Energy & Environmental Science 2016, 9: 1794-1802. DOI: 10.1039/c5ee03871e.Peer-Reviewed Original ResearchWater oxidation catalystsHeterogeneous oxide catalystsSurface recombination rateOxide catalystsPerformance of hematiteBulk metal oxide catalystsHeterogeneous water oxidation catalystsPerformance of photoelectrodesO interfacePhotoelectrochemical water oxidationChemical energy conversionRecombination rateMetal oxide catalystsImproved charge transferAdditional charge-transfer pathwaysCharge transfer pathwayCombination of catalystsPEC performancePEC systemHematite photoanodesWater splittingWater oxidationIr catalystOxidation catalystPhotoelectrochemical reactions