Origin of the different conductive behavior in pentavalent-ion-doped anatase and rutile TiO2

Abstract

The electronic properties of pentavalent-ion (Nb5+, Ta5+, and I5+) doped anatase and rutile TiO2 are studied using spin-polarized GGA+U calculations. Our calculated results indicate that these two phases of TiO2 exhibit different conductive behavior upon doping. For doped anatase TiO2, some up-spin-polarized Ti 3d states lie near the conduction band bottom and cross the Fermi level, showing an n-type half-metallic character. For doped rutile TiO2, the Fermi level is pinned between two up-spin-polarized Ti 3d gap states, showing an insulating character. These results can account well for the experimental different electronic transport properties in Nb (Ta)-doped anatase and rutile TiO2.