(Sub)surface mobility of oxygen vacancies at the TiO$_2$ anatase (101) surface

Abstract: Anatase is a metastable polymorph of TiO$2$. In contrast to the more widely-studied TiO$_2$ rutile, O vacancies (V$\mathrm O$'s) are not stable at the anatase (101) surface. Low-temperature STM shows that surface V$\mathrm O$'s, created by electron bombardment at 105 K, start migrating to subsurface sites at temperatures $\geq$ 200 K. After an initial decrease of the V$\mathrm O$ density, a temperature-dependent dynamic equilibrium is established where V$_\mathrm O$'s move to subsurface sites and back again, as seen in time-lapse STM images. We estimate that activation energies for subsurface migration lie between 0.6 and 1.2 eV; in comparison, DFT calculations predict a barrier of ca. 0.75 eV. The wide scatter of the experimental values might be attributed to inhomogeneously-distributed subsurface defects in the reduced sample.