Abstract

In this work, we used different approximations, namely the GGA and LDA of the density functional theory framework, to investigate the properties of the double perovskite Cs 2 SnX 6 ([Formula: see text], Br, I). We found that these materials are mechanically stable, and the calculated band gaps are 3.62[Formula: see text]eV for Cs 2 SnCl 6 , 2.33[Formula: see text]eV for Cs 2 SnBr 6 , and 1.00[Formula: see text]eV for Cs 2 SnI 6 , which agree well with the experimental results. The band structure reveals that the conduction band primarily arises from hybridization between the Sn-5s orbitals and the halogen p orbitals, while the valence band is predominantly composed of the halogen p orbitals. Additionally, we observed that all Cs 2 SnX 6 compounds exhibit strong optical absorption in the ultraviolet region. Moreover, the absorption spectra edges shift toward the red from Cs 2 SnCl 6 to Cs 2 SnI 6 . The thermoelectric properties have also been extensively characterized in this study. These favorable physical characteristics make Cs 2 SnX 6 compounds attractive candidates for replacing expensive silicon cells in solar panels.