Spectral Tuning in Halorhodopsin: The Chloride Pump Photoreceptor
Pal R, Sekharan S, Batista V. Spectral Tuning in Halorhodopsin: The Chloride Pump Photoreceptor. Journal Of The American Chemical Society 2013, 135: 9624-9627. PMID: 23777372, DOI: 10.1021/ja404600z.Peer-Reviewed Original ResearchMeSH KeywordsHalobacterium salinarumHalorhodopsinsHydrogen BondingPhotochemical ProcessesQuantum TheoryConceptsKey amino acid residuesIon translocation pathwayAmino acid residuesSpectral tuningInternal water moleculesTranslocation pathwaySpecific hydrogen bondsHalobacterium salinarumAcid residuesMolecular levelStructural rearrangementsAnion transportCl depletionPhotoreceptorsInduces changesHalorhodopsinRetinyl chromophoreSalinarumMutationsResiduesPathwayFirst timeHydroxamate Anchors for Improved Photoconversion in Dye-Sensitized Solar Cells
Brewster TP, Konezny SJ, Sheehan SW, Martini LA, Schmuttenmaer CA, Batista VS, Crabtree RH. Hydroxamate Anchors for Improved Photoconversion in Dye-Sensitized Solar Cells. Inorganic Chemistry 2013, 52: 6752-6764. PMID: 23687967, DOI: 10.1021/ic4010856.Peer-Reviewed Original ResearchMeSH KeywordsColoring AgentsElectric Power SuppliesHydroxamic AcidsMolecular StructureOrganometallic CompoundsPhotochemical ProcessesSolar EnergyConceptsDye-sensitized solar cellsSolar cellsRuthenium polypyridyl dyesElectricity conversion efficiencyExhibit high efficiencyCurrent density–voltage (J–V) characteristic curvesAnchoring groupDye moleculesElectron transferMolecular adsorbatesPhotocatalytic applicationsTiO2 surfaceCell performanceSemiconductor surfacesConversion efficiencyStructure/function relationshipsFundamental insightsFuture applicationsSimilar conditionsHigh efficiencyPhotoanodeElectrolyteFunction relationshipsAdsorbatesSurface