Elucidating the role of Sn-substitution and Pb- in regulating stability and carrier concentration in CH3NH3Pb1-X-YSnXYI3

Abstract

We address the role of Sn-substitution and Pb-vacancy (Pb-) in regulating stability and carrier concentration of CH3NH3Pb1-X-YSnXYI3 perovskite using density functional theory, where the performance of the exchange-correlation functional is carefully analyzed, and validated w.r.t. available experimental results. We find the most stable configuration does not prefer any Pb at 50\% concentration of Sn. However, the Pb- become unfavourable above 250K due to the reduced linearity of Sn-I bonds. For n-type host the Sn substitution is more preferable than Pb- formation, while for p-type host the trend is exactly opposite. The charge states of both Sn and Pb- are found to be dependent on the Sn concentration, which in turn alters the perovskite from n-type to p-type with increasing X (>0.5).