Abstract
The effects of Ce doping (2.6%) on the oxygen vacancy (VO) formation energy (Ef) and the electronic structure of the anatase TiO2(001) surface were studied by means of periodic density functional calculations within the PBE and PBE + U approaches. Several situations were considered for VO formation, differing in terms of the position in relation to the dopant site (at the surface and subsurface atomic layers). The vacancy energy of formation is almost always lower for the surface than for the bulk, but the difference is still larger with Ce dopant in the subsurface layers. Nevertheless, the Ce-for-Ti substitution is more stable at the outermost layers, indicating thermodynamically favorable dopant migration toward the oxide surface. The PBE + U approach provides a physically meaningful description of localized d and f electrons in Ti3+ and Ce3+ species, respectively. Moreover, fully localized spin (simple and split) or partially localized spin solutions are found within a ∼0.5 eV range. Not unexpectedly, ...
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