Exploring the optoelectronic attributes, thermoelectric and photocatalytic potential of double perovskites Cs2BB'H6 (B = Al, Na and B'=Tl, In): A DFT study

Exploring the optoelectronic attributes, thermoelectric and photocatalytic potential of double perovskites Cs2BB'H6 (B = Al, Na and B'=Tl, In): A DFT study

•First-principles investigation of the structural, phonon, elastic, electronic, thermoelectric, optical and photocatalytic properties of double perovskites Cs2BB'H6 (B = Al, Na and B'=Tl, In) is done.•The optimization cures, negative formation energy and positive phonon curves show the sta...

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Bibliographic Details
Published in:Materials science & engineering. B, Solid-state materials for advanced technology Vol. 301; p. 117171
Main Authors: Murtaza, Hudabia, ul Ain, Qurat, Munir, Junaid, Ghaithan, Hamid M., Ahmed, Abdullah Ahmed Ali, Qaid, Saif M.H.
Format: Journal Article
Language:English
Published: Elsevier B.V 01-03-2024
Subjects:
Density Functional Theory
Double perovskites
Electronic Properties
Modified Becke-Johnson
Optical Properties
Solar Hydrogen Synthesis
Spin Orbit Coupling
Electronic Properties
Solar Hydrogen Synthesis
Optical Properties
Density Functional Theory
Modified Becke-Johnson
Spin Orbit Coupling
Double perovskites
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Summary:•First-principles investigation of the structural, phonon, elastic, electronic, thermoelectric, optical and photocatalytic properties of double perovskites Cs2BB'H6 (B = Al, Na and B'=Tl, In) is done.•The optimization cures, negative formation energy and positive phonon curves show the stability of the studied compounds.•The electronic band structure and density of states (DOS) reveals the semiconductor nature of both compound.•An optical band gap with maximum absorption reveals that this compound is also useful for the application in optoelectronics.•The thermoelectric response suggests their availability for thermoelectric devices.•Photocatalytic properties show the excellent response of both compounds for solar hydrogen synthesis. Double perovskites Cs2BB'H6 (B = Al, Na and B'=Tl, In) have been scrutinized by employing density functional theory to calculate their electronic structures, thermodynamic stability, elastic, optical, thermoelectric and photocatalytic properties. The FP-LAPW is utilized in the WIEN2k code for the calculations. Exchange correlation potentials such as modified Becke-Johnson with the addition of spin-orbital coupling are employed. The positive phonon frequencies, negative formation energies and optimization curves of the structures endorse the complete stability of studied perovskites. Mechanical properties also provide evidence of the structure's stability. Both compounds exhibit a semiconductor nature with an indirect bandgap of 2.38 eV and 2.51 eV for Cs2AlTlH6 and 3.34 eV and 3.40 eV for Cs2NaInH6 with mBJ and mBJ+SOC potentials, respectively. The partial and total densities of states have been computed to investigate the orbital’s contribution. Calculations for optical response show the lowest energy loss and highest absorption in the ultraviolet range validating their use in optoelectronic devices. In addition, the evaluated thermoelectric response reveals their strong potential to use in renewable energy applications. Photocatalytic properties show the excellent response of both compounds for solar hydrogen synthesis.
ISSN:0921-5107
1873-4944
DOI:10.1016/j.mseb.2023.117171