2024
Breaking a Molecular Scaling Relationship Using an Iron–Iron Fused Porphyrin Electrocatalyst for Oxygen Reduction
Nishiori D, Menzel J, Armada N, Cruz E, Nannenga B, Batista V, Moore G. Breaking a Molecular Scaling Relationship Using an Iron–Iron Fused Porphyrin Electrocatalyst for Oxygen Reduction. Journal Of The American Chemical Society 2024, 146: 11622-11633. PMID: 38639470, DOI: 10.1021/jacs.3c08586.Peer-Reviewed Original ResearchOxygen reduction reactionBinuclear catalystsElectrophilic characterDesign of efficient electrocatalystsCatalytic turnover frequencySynthetic design strategiesMacrocyclic ligandCoordination sphereLigand designTurnover frequencyElectronic conjugationEfficient electrocatalystsReduction reactionOxygen reductionMolecular scaffoldsCatalystCatalytic centerIron-ironCharged sitesElectrocatalystsElectrocatalysisLigandBioinspired applicationsDesign strategyScaling relationships
2013
Chapter 1
Xiao D, Warnke I, Bedford J, Batista V. Chapter 1. Chemical Modelling 2013, 10: 1-31. DOI: 10.1039/9781849737241-00001.Peer-Reviewed Original ResearchInverse molecular designMolecular designDye-sensitized solar cellsMaterials discoveryMolecular design strategyElectronic structure calculationsNovel nonlinear optical materialNonlinear optical materialsCatalyst designSolar fuelsMolecular systemsStructure calculationsSolar cellsOptical materialsDesign strategyComputational approachPromising approach