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Properties of the chalcogenide-based double perovskites Ba<sub>2</sub>NbBiS<sub>6</sub> and Ba<sub>2</sub>TaSbS<sub>6</sub> with respect to structural, electronic and optical aspects

H. BaazizDepartment of Physics, Faculty of Science, University of M’sila, 28000 M’sila, AlgeriaT. GhellabDepartment of Physics, Faculty of Science, University of M’sila, 28000 M’sila, AlgeriaZ. CharifiDepartment of Physics, Faculty of Science, University of M’sila, 28000 M’sila, Algeria
2024en
ABI

Аннотация

In this work, we delve into the investigation of the structural, electronic, and optical properties of Ba 2 NbBiS 6 and Ba 2 TaSbS 6 chalcogenide-based double perovskites, which are structured in the cubic space group [Formula: see text] form. We have performed first-principles calculations using density functional theory (DFT) to study the above properties. The electronic band structure and density of states of this compound have been investigated, and their results show that Ba 2 NbBiS 6 and Ba 2 TaSbS 6 exhibit a semiconducting nature with an indirect energy gap of 1.680[Formula: see text]eV and 1.529[Formula: see text]eV, respectively. Furthermore, an investigation was conducted on the optical properties of the compounds throughout the energy range spanning from 0[Formula: see text]eV to 55[Formula: see text]eV. This investigation focused on many parameters, including dielectric functions, optical reflectivity, refractive index, extinction coefficient, optical conductivity, and electron energy loss. The optical data obtained from the calculations reveals that all compounds demonstrate isotropy in optical polarization. Furthermore, it has been noted that our compounds exhibit absorption properties inside the ultraviolet (UV) region. Consequently, these materials hold promise as potential candidates for various applications, such as UV photodetectors, UV light emitters, and power electronics. This is primarily attributed to their inherent absorption limits and the presence of prominent absorption peaks in this spectral range. In brief, chemical mutation techniques have been employed to manipulate the characteristics of double-sulfide perovskites to develop durable and environmentally friendly perovskite materials suitable for solar purposes.

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