First-principles study of point defects in LiGaO2

Abstract

The native point defects are studied in LiGaO2 using hybrid functional calculations. We find that the relative energy of formation of the cation vacancies and the cation antisite defects depends strongly on the chemical potential conditions. The lowest energy defect is found to be the GaLi2+ donor. It is compensated mostly by VLi-1and in part by LiGa-2 in the more Li-rich conditions. The equilibrium carrier concentrations are found to be negligible because the Fermi level is pinned deep in the gap and this is consistent with insulating behavior in pure LiGaO2. The VGa has high energy under all reasonable conditions. Both the GaLi and the VO are found to be negative U centers with deep 2+/0 transition levels.