First-principles study of native point defects in topological insulator Bi2Se3

Abstract

The p-type Bi2Se3 is much desirable as a promising thermoelectric material and topological insulator, while the naturally grown Bi2Se3 is always n-type doped by native point defects. Here we use first-principles calculations to identify the origin of the n-type tendency in bulk Bi2Se3: The Se vacancies (VSe1 and VSe2) and SeBi antisite dominate the donorlike doping with low formation energy, while the predisposed BiSe1 defect results in the pair of VSe1 and Bi interstitial, which is also a donor rather than an acceptor. Moreover, for Bi2Se3(111) surface, we find that the band structures modulated by the defects explicitly account for the existing experimental observations of n-type preference.