Electronic structure of anatase TiO2 oxide

Abstract

Photoemission spectromicroscopy was used to investigate the electronic structure of TiO₂ anatase single crystals and polycrystalline thin films. The stoichiometry and the degree of oxidation of as‐grown crystals, as‐deposited films, as well as of thermally annealed samples in different atmospheres, were analyzed, based on the Ti 2p and O 1s core levels, with an energy resolution of 0.4 eV. The experimental density of states (DOS) was found to be in agreement with the theoretical DOS reported in the literature for anatase crystals, and shows some characteristics similar to the experimental DOS reported for rutile crystals. In reduced samples, the experimental DOS is characterized by intense emission in the region of O 2p bonding orbitals, and does not exhibit an appreciable density of states in the band gap. As‐grown crystals exhibit small band gap emission (a few percent of the valence band VB signal) at about 0.8 eV, which is attributed to Ti³⁺ (3d) defect states. Annealing the crystals at high temperatures in O₂ or subsequent thermal reduction in an Ar–H₂ mixture (95%–5%) produces nearly stoichiometric surfaces with smaller or undetectable density of Ti³⁺ states. In addition, some redistribution of the spectral weight is observed in the VB spectra.