Using hybrid functional electronic structure calculations, we have investigated the structure and energetics of photogenerated electrons and holes in the bulk and at the (101) surface of anatase TiO2. Excitons formed upon UV irradiation are found to become self-trapped, consistent with the observation of temperature-dependent Urbach tails in the absorption spectrum and a large Stokes shift in the photoluminescence band of anatase. Electron and hole polarons are localized at Ti and O lattice sites, respectively. At the surface, the trapping sites generally correspond to undercoordinated Ti3+5c and O surface atoms or to isolated OH species in the case of a hydroxylated surface. The polaron trapping energy is considerably larger at the surface than in the bulk, indicating that it is energetically favorable for the polarons to travel from the bulk to the surface. Computed oneelectron energy levels in the gap and hyperfine coupling constants compare favorably with oxidation potential and EPR measurements.
DI VALENTIN, C., Selloni, A. (2011). Bulk and Surface Polarons in Photoexcited Anatase TiO2. THE JOURNAL OF PHYSICAL CHEMISTRY LETTERS, 2(17), 2223-2228 [10.1021/jz2009874].
Bulk and Surface Polarons in Photoexcited Anatase TiO2
DI VALENTIN, CRISTIANA;
2011
Abstract
Using hybrid functional electronic structure calculations, we have investigated the structure and energetics of photogenerated electrons and holes in the bulk and at the (101) surface of anatase TiO2. Excitons formed upon UV irradiation are found to become self-trapped, consistent with the observation of temperature-dependent Urbach tails in the absorption spectrum and a large Stokes shift in the photoluminescence band of anatase. Electron and hole polarons are localized at Ti and O lattice sites, respectively. At the surface, the trapping sites generally correspond to undercoordinated Ti3+5c and O surface atoms or to isolated OH species in the case of a hydroxylated surface. The polaron trapping energy is considerably larger at the surface than in the bulk, indicating that it is energetically favorable for the polarons to travel from the bulk to the surface. Computed oneelectron energy levels in the gap and hyperfine coupling constants compare favorably with oxidation potential and EPR measurements.File | Dimensione | Formato | |
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