4.5 Article

Computational investigations of optoelectronic properties of K2ScAuX6 (X = Cl, Br) double perovskites for energy harvesting devices

Journal

CHEMICAL PHYSICS
Volume 571, Issue -, Pages -

Publisher

ELSEVIER
DOI: 10.1016/j.chemphys.2023.111920

Keywords

Double Perovskites; Indirect Bandgap Semiconductors; Optical Characteristics; Thermo-electric Properties

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This study presents a theoretical analysis of the technologically important physical properties of double perovskites K2ScAuX6 (X=Cl, Br), including transport, optoelectronic, and structural properties. The tolerance factor and enthalpy of formation were computed to ensure the structural and thermodynamic stability of these compounds. Substituting Br for Cl increased the lattice parameter and reduced the bulk modulus. The computation of elastic constants-based modulus of elasticity revealed their ductile nature. The analysis of electronic band structure showed their indirect bandgap nature. The polarizability of the material was assessed by computing the dielectric constant, extinction coefficient, refractive index, electrical and thermal conductivity, and Seebeck coefficient, demonstrating their suitability for advanced technological applications in optoelectronics and thermoelectric industry.
Here we report a theoretical analysis of various technologically important physical properties of double pe- rovskites K2ScAuX6 (X=Cl, Br) including thansport, optoelecronic, and strucutral. The computation of tolerance factor and estimation of entahly of formation remained key indicators to ensure the srucutal and thermodynamic stability of these compositions. The substitution of Br at Cl site increased the lattice parameter and reduced the bulk modulus. The computation of elastic constants-based modulus of elasticity revealed their ductile nature. The analysis of electronic band structure unveiled their indirect bandgap nature. Polarizability of material is accessed by computing the dielectric constant, scattering by extinction coefficient, absorption by refractive index, in addition to electrical and thermal conductivity and the Seebeck coefficient, highlighted their suitability for advanced technologically important applications in optoelectronic and thermoelectric industry.

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