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Pressure induced structural, electronic, optical and thermal properties of CsYbBr3, a theoretical investigation

Muhammad Saeed, Malak Azmat Ali, Shah Murad, Rehan Ullah, Thamraa Alshahrani, A. Laref, G. Murtaza

2020Journal of Materials Research and Technology33 citationsDOIOpen Access PDF

Abstract

This article presents the variation of structural, electronic, thermal and optical properties of a halide perovskite CsYbBr3 with increasing pressure, employing density functional theory. The pressure effect was determined in range of 0–15 GPa. In which stability of CsYbBr3 remains valid, as, verified from negative values of enthalpy of formation and phonon dispersion curves. A significant change was observed in lattice constant, bond lengths, bulk modulus and its pressure derivative, volume and ground state energy, with increasing pressure. The calculated electronic properties presented CsYbBr3 as a semiconductor with direct band gap of 3.61 eV. However, pressure rise shift the Yb-d states toward the Fermi level and causes a decrease in band gap. At 12 GPa, CsYbBr3 presents the semi metallic nature while further increase in pressure makes it as metallic. Moreover, Debye temperature (Grüneisen parameter) was observed to increase (decrease) with pressure rise while the lattice thermal conductivity was found to increase. The calculated optical properties exposed the suitability of CsYbBr3 in pressure tunable opto-electronic devices.

Topics & Concepts

Materials scienceDebye modelBulk modulusBand gapLattice constantCondensed matter physicsDirect and indirect band gapsDensity functional theoryOptical conductivityPhononSemiconductorFermi levelEnthalpyPerovskite (structure)ThermodynamicsComputational chemistryDiffractionOpticsCrystallographyOptoelectronicsComposite materialChemistryPhysicsElectronQuantum mechanicsPerovskite Materials and ApplicationsSolid-state spectroscopy and crystallographyHeusler alloys: electronic and magnetic properties
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