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Electronic, optical, and transport properties of RbYbX <sub>3</sub> (X = Cl, Br) for solar cells and renewable energy: a quantum DFT study

Q. Mahmood, Fekhra Hedhili, Shereen M. Al‐Shomar, S Chebaaneef, Tahani I. Al‐Muhimeed, Abeer A. AlObaid, Abeer Mera, Osama Abdulaziz Alamri

2021Physica Scripta19 citationsDOI

Abstract

Abstract The electronic, optical, and thermoelectric properties of RbYbX 3 (X = Cl, Br) are investigated with density functional theory based Modified Becke and Johnson (mBJ) potential which is executed in Wien2K code. The tolerance factors (0.96, 0.98) and formation energies favor their structural and thermodynamic stabilities. The direct bandgaps of 1.42 eV and 1.30 eV for RbYbCl 3 , and RbYbBr 3 address the visible region of spectrum for solar cells. The optical properties are explored comprehensively in terms of dielectric constants, refractive index, absorption coefficient, and reflection. The absorption bands of light are in the visible region, and light is plane-polarized. Furthermore, the thermoelectric properties are analyzed in terms of thermal and electrical conductivities, Seebeck coefficient, and figure of merit. The room temperature ZT turns out to be 0.78 for RbYbCl 3 and 0.75 for RbYbBr 3 . The maximum absorption in the visible region and high ZT make them excellent materials for renewable energy applications.

Topics & Concepts

WIEN2kMaterials scienceDensity functional theoryAbsorption (acoustics)Attenuation coefficientDielectricOptoelectronicsFigure of meritSeebeck coefficientVisible spectrumRefractive indexThermoelectric effectAbsorption spectroscopyThermal conductivityCondensed matter physicsOpticsChemistryLocal-density approximationPhysicsComputational chemistryThermodynamicsComposite materialPerovskite Materials and ApplicationsOptical properties and cooling technologies in crystalline materialsChalcogenide Semiconductor Thin Films