The role of surface reduction in the formation of Ti interstitials

摘要

Density functional theory simulations are used to investigate the formation and mobility of Ti interstitial ions, Ti-i, at the (110) surface of rutile TiO2. Interstitials were found to be favoured in the second layer below the surface plane, where they induce electron polaron states at surface and subsurface lattice Ti atoms. Reduction of the surface significantly lowers the barrier for Ti-i formation at the surface: the barrier for formation of Ti-i is reduced to just approximate to 0.5 eV for a Ti atom next to two bridging oxygen vacancies. However, the barrier to separate the interstitial from the surface oxygen vacancies is approximate to 2.5 eV. The bulk diffusion barrier is recovered after the interstitial is moved away from the vacancy complex. These results support an experimentally postulated mechanism of Ti-i formation and contribute to our understanding of the TiO2 surface reduction and reoxidation.