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• Matthias M. Waegele, Hoang Q. Doan, and Tanja Cuk*
• J. Phys. Chem. C, 2014, 118 (7), pp 3426–3432 DOI: 10.1021/jp4113443. Download

The spectrum and dynamics of excited carriers in a spinel-ordered transition metal oxide, Co₃O₄, were investigated by both selective photoexcitation of all major optical transitions and selectively filling electronic states through an applied voltage. Co₃O₄ contains strong absorptions at all relevant optical excitations common to transition-metal oxides, inclusive of ligand-to-metal charge transfer, metal-to-metal charge transfer, and intravalence d–d transitions. We find that carriers initially excited across the charge-transfer excitations quickly (∼3 ps) convert to d–d excitations due to strong electron–phonon coupling. Subsequent recombination from weakly coupled, localized excited d states to the ground state occurs at a much longer, nanosecond time scale. These results suggest that d–d excitations represent a special type of long-lived recombination center intrinsic to a transition-metal oxide. Such carrier dynamics may apply to a wider range of transition metal oxides actively being integrated in photocatalytic and photovoltaic devices.