2017
Thermodynamic and Structural Factors That Influence the Redox Potentials of Tungsten–Alkylidyne Complexes
Rudshteyn B, Vibbert H, May R, Wasserman E, Warnke I, Hopkins M, Batista V. Thermodynamic and Structural Factors That Influence the Redox Potentials of Tungsten–Alkylidyne Complexes. ACS Catalysis 2017, 7: 6134-6143. DOI: 10.1021/acscatal.7b01636.Peer-Reviewed Original ResearchTungsten alkylidyne complexesRedox propertiesOxidation potentialGas-phase ionization energiesKey frontier orbitalsDensity functional theory levelX bond lengthsFree energy calculationsSolvation free energy differencesAlkylidyne ligandFrontier orbitalsHOMO energyFree energy differenceBond lengthsObserved linear correlationRedox potentialTheory levelEnergy calculationsIonization energyEnergy differenceComplexesStructural factorsElectrochemistryGood descriptorLinear correlation
2011
Energy Research: Computational Challenges
Batista V. Energy Research: Computational Challenges. 2011 DOI: 10.1002/9781119951438.eibc0461.Peer-Reviewed Original ResearchElectron transferEarth abundant transition metal complexesTransition metal complexesInterfacial electron transferNovel photocatalytic materialsVisible light absorptionNanoporous TiO2 thin filmsMetal complexesManganese catalystsPhotocatalytic materialsPhotocatalytic mechanismTiO2 thin filmsLight absorptionSolar cellsRecent computational workSemiconductor materialsFuel productionThin filmsRenewable resourcesElectrochemistryOverall efficiencyCatalystSpectroscopyComputational workRecent advances
2005
Energy Research: Computational Challenges
Batista V. Energy Research: Computational Challenges. 2005 DOI: 10.1002/0470862106.ia812.Peer-Reviewed Original ResearchElectron transferEarth abundant transition metal complexesTransition metal complexesInterfacial electron transferNovel photocatalytic materialsVisible light absorptionNanoporous TiO2 thin filmsMetal complexesManganese catalystsPhotocatalytic materialsPhotocatalytic mechanismTiO2 thin filmsLight absorptionSolar cellsRecent computational workSemiconductor materialsFuel productionThin filmsRenewable resourcesElectrochemistryOverall efficiencyCatalystSpectroscopyComputational workRecent advances