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
2018
Behavior of Ru–bda Water‐Oxidation Catalysts in Low Oxidation States
Matheu R, Ghaderian A, Francàs L, Chernev P, Ertem M, Benet‐Buchholz J, Batista V, Haumann M, Gimbert‐Suriñach C, Sala X, Llobet A. Behavior of Ru–bda Water‐Oxidation Catalysts in Low Oxidation States. Chemistry - A European Journal 2018, 24: 12838-12847. PMID: 29897655, DOI: 10.1002/chem.201801236.Peer-Reviewed Original ResearchCoordination modeRu centerRu complexesWater moleculesVariable-temperature NMR spectroscopyHydrogen-bonded water moleculesX-ray absorption spectroscopyPseudo-octahedral geometryAdditional water moleculesMain coordination modesNew Ru complexesLower oxidation statesSingle crystal XRDSecond coordination sphereComplex 1 reactsAcidic aqueous solutionExcess of NOTridentate mannerAniline ligandNew RuO ligandsCoordination sphereNMR spectroscopySynthetic intermediatesCarboxylate groups