2017
Antimony Complexes for Electrocatalysis: Activity of a Main‐Group Element in Proton Reduction
Jiang J, Materna K, Hedström S, Yang K, Crabtree R, Batista V, Brudvig G. Antimony Complexes for Electrocatalysis: Activity of a Main‐Group Element in Proton Reduction. Angewandte Chemie 2017, 129: 9239-9243. DOI: 10.1002/ange.201704700.Peer-Reviewed Original ResearchMain group catalysisRedox-active ligandsMain group complexesQuantum chemistry calculationsMain group elementsViable electrocatalystsPorphyrin ligandChemistry calculationsHydroxy ligandsElectrocatalysis applicationsProton reductionCatalytic propertiesAntimony complexesRedox activityAxial ligandsCatalytic cycleSb centerLigandsCatalysisComplexesElectrocatalysisElectrocatalystsPorphyrinsReactionAcid
2008
Redox Reactions of the Non-Heme Iron of Photosystem II: An EPR Spectroscopic Study
McEvoy J, Brudvig G. Redox Reactions of the Non-Heme Iron of Photosystem II: An EPR Spectroscopic Study. 2008, 141-144. DOI: 10.1007/978-1-4020-6709-9_32.Peer-Reviewed Original ResearchSecondary electron donorNon-heme ironElectron donorRedox activityElectron transfer reactionsEPR spectroscopic studiesProton transfer reactionsProton transfer pathwayPhotosystem IIRedox chemistryRedox reactionsEPR spectroscopySpectroscopic studiesCharge recombinationEPR quantitationQB sitePotassium ferricyanideReactionFe3Fe2IronLow temperatureAcceptor sitesDonor yieldChemistry