High-Energy Charge-Separated States by Reductive Electron Transfer Followed by Electron Shift in the Tetraphenylethylene–Aluminum(III) Porphyrin–Fullerene Triad
Zarrabi N, Agatemor C, Lim G, Matula A, Bayard B, Batista V, D’Souza F, Poddutoori P. High-Energy Charge-Separated States by Reductive Electron Transfer Followed by Electron Shift in the Tetraphenylethylene–Aluminum(III) Porphyrin–Fullerene Triad. The Journal Of Physical Chemistry C 2018, 123: 131-143. DOI: 10.1021/acs.jpcc.8b09500.Peer-Reviewed Original ResearchCharge-separated stateCharge separationTime-resolved spectroscopic techniquesReductive electron transferCharge separated statesExcited-state propertiesReference dyadsExcited singlet stateTetraphenylethylene unitsArtificial photosynthesisSupramolecular triadElectron transferSpectroscopic techniquesCovalent bondsPorphyrin planeTetraphenylethyleneElectron migrationPhotochemical reactionsChemical energyElectron shiftSinglet stateAlPorFullerenesPorphyrinsSeparation