Atomic Distributions in Topological Insulator Bi2Se3-xTex

Abstract

Bi2Se3 is a topological insulator and it is often doped with Te to compensate the n-type carriers due to Se vacancies. Different doping patterns of Te would influence the transport characteristics of the surface states. We study the Te atom distribution in Bi2Se3 with different Te concentrations, using first-principles density-functional-theory calculations. We show that Te prefer the outer layer, until the composition becomes Bi2SeTe2 and the outer layer is full of Te. And for a fixed ratio of Se and Te atoms within a single layer, we find that the structures with less number of adjacent Te-Se pairs tend to have lower energies. This might result in the formation of local Te clusters under low annealing temperatures.