Electronic, optical and thermoelectric properties of new metal-rich homological selenides with palladium–indium: Density functional theory and Boltzmann transport model

Azam, Sikander (2019) Electronic, optical and thermoelectric properties of new metal-rich homological selenides with palladium–indium: Density functional theory and Boltzmann transport model. Journal of Physics and Chemistry of Solids, 138.

Text Pd5InSe and Pd8In2Se.pdf - Published Version Download (2MB)

Abstract

We reported first principles calculations of electronic and related optical and thermoelectric properties of two
metal-rich palladium–indium selenides Pd5InSe and Pd8In2Se. Both selenides are found to be metallic and their densities of states at the Fermi energy, N (EF), showed an overlap between the Pd-s/p, In-p and Se-p states.
Specific heat coefficients were found 0.52 and 0.743 mJ/mol⋅K2, for Pd5InSe and Pd8In2Se, respectively. Our
findings indicate that the linear optical properties have potential use as active photo-catalyst under visible light irradiation. We combined the Boltzmann transport equations with density functional theory to determine the
thermoelectric and electrical properties of both compounds. At 300 K, the Seebeck coefficient of Pd8In2Se is larger than Pd5InSe one. Due to their metallic character, both selenides have limited thermoelectric use in their current structures and could be doped to change their electronic structures to narrow semiconductors or semimetallic materials.

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