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 applicationsBodipy and Dipyrrin as Unexpected Robust Anchoring Groups on TiO2 Nanoparticles
Jayworth J, Capobianco M, Liu H, Decavoli C, Crabtree R, Brudvig G. Bodipy and Dipyrrin as Unexpected Robust Anchoring Groups on TiO2 Nanoparticles. ECS Meeting Abstracts 2023, MA2023-01: 1410-1410. DOI: 10.1149/ma2023-01151410mtgabs.Peer-Reviewed Original ResearchTiO2 surfacePhoto-electrochemical water oxidationDye-sensitized solar cellsNatural photosynthetic systemsMetal oxide surfacesMetal oxide photoanodesCarboxylic acid groupsSolar fuel productionDipyrrin derivativesMolecular catalystsWater oxidationSynthetic stepsBF2 groupBODIPY chromophoreOxide photoanodesNitrogen atomsOxide surfaceSurface anchorAcid groupsMolecular complexesBioinspired materialsCovalent attachmentTiO2 nanoparticlesSurface bondsParent molecule
2011
Photosynthesis: Energy Conversion
Ulas G, Brudvig G. Photosynthesis: Energy Conversion. 2011 DOI: 10.1002/9781119951438.eibc0455.Peer-Reviewed Original ResearchSolar fuel productionSustainable solar fuel productionWater oxidation catalysisWater oxidation catalystsLight-driven oxidationNatural photosynthetic systemsHigh-energy chemicalsEnergy conversionCarbon dioxide reductionSolar energy conversionFuel productionArtificial photosynthesisWater oxidationRedox levelingHalf reactionOxygenic photosynthesisElectron transferCatalytic turnoverCatalytic mechanismChemical energyDirect light absorptionElectron transport machineryLight absorptionPhotosynthetic systemsLight energy capture
2005
Photosynthesis: Energy Conversion
Ulas G, Brudvig G. Photosynthesis: Energy Conversion. 2005 DOI: 10.1002/0470862106.ia805.Peer-Reviewed Original ResearchSolar fuel productionSustainable solar fuel productionWater oxidation catalysisWater oxidation catalystsLight-driven oxidationNatural photosynthetic systemsHigh-energy chemicalsEnergy conversionCarbon dioxide reductionSolar energy conversionFuel productionArtificial photosynthesisWater oxidationRedox levelingHalf reactionOxygenic photosynthesisElectron transferCatalytic turnoverCatalytic mechanismChemical energyDirect light absorptionElectron transport machineryLight absorptionPhotosynthetic systemsLight energy capture