Q. Mahmood scite author profile

We report first-principle calculations of the recently synthesized Pb-free double perovskite Cs 2 PtI 6 , which we found to have the potential to be an excellent thermoelectric material, through the investigation of its electronic and phonon transport properties. The Heyd−Scuseria−Ernzerhof functional results in an indirect band gap of 1.40 eV, perfectly matching the experiment. Our well-converged phonon dispersion displays positive frequencies in the entire Brillouin zone and hence confirms the dynamic stability of the material. Further, the low-lying optical modes mix significantly with the heat-carrying acoustic phonons and add to their scattering phase space. We have found strong phonon anharmonicity due to the nonsymmetric and nonspherical electron densities of the atoms derived from their bonding environment, which in combination with low group velocities and high phonon scattering rates results in ultralow lattice thermal conductivity in Cs 2 PtI 6 . For example, it is 0.15 W/mK at 300 K, which is 8-fold smaller than that reported for the typical thermoelectric material Bi 2 Te 3 . Our simulations show that it could be reduced by another factor of 2 by nanostructuring the material with features of around 8 nm. We have found a remarkably high p-type Seebeck coefficient of 139 μV/K at the maximum considered carrier concentration and temperature. Our calculations also find a high figure of merit of 1.03 for the p-type carriers at room temperature, attributed to the substantial thermoelectric coefficient S 2 σ/τ, where S, σ, and τ are the Seebeck coefficient, the electrical conductivity, and the relaxation time, respectively.

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Probing of mechanical, optical and thermoelectric characteristics of double perovskites Cs2GeCl/Br6 by DFT method

Mahmood

Ghrib

Rached

et al. 2020

Materials Science in Semiconductor Processing

130

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A new lead free double perovskites K2Ti(Cl/Br)6; a promising materials for optoelectronic and transport properties; probed by DFT

Ghrib

Rached

Algrafy

et al. 2021

Materials Chemistry and Physics

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First-principles study of lead-free double perovskites Rb2TeX6 (X = Cl, Br, and I) for solar cells and renewable energy

Mahmood

Alhossainy

Rashid

et al. 2021

Materials Science and Engineering: B

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Physical properties of lead-free double perovskites A2SnI6 (A= Cs, Rb) using ab-initio calculations for solar cell applications

Huma

Rashid

Mahmood

et al. 2021

Materials Science in Semiconductor Processing

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Q. Mahmood

Ultralow Lattice Thermal Conductivity in Double Perovskite Cs₂PtI₆: A Promising Thermoelectric Material

Probing of mechanical, optical and thermoelectric characteristics of double perovskites Cs2GeCl/Br6 by DFT method

A new lead free double perovskites K2Ti(Cl/Br)6; a promising materials for optoelectronic and transport properties; probed by DFT

First-principles study of lead-free double perovskites Rb2TeX6 (X = Cl, Br, and I) for solar cells and renewable energy

Physical properties of lead-free double perovskites A2SnI6 (A= Cs, Rb) using ab-initio calculations for solar cell applications

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Q. Mahmood

Ultralow Lattice Thermal Conductivity in Double Perovskite Cs2PtI6: A Promising Thermoelectric Material

Probing of mechanical, optical and thermoelectric characteristics of double perovskites Cs2GeCl/Br6 by DFT method

A new lead free double perovskites K2Ti(Cl/Br)6; a promising materials for optoelectronic and transport properties; probed by DFT

First-principles study of lead-free double perovskites Rb2TeX6 (X = Cl, Br, and I) for solar cells and renewable energy

Physical properties of lead-free double perovskites A2SnI6 (A= Cs, Rb) using ab-initio calculations for solar cell applications

Contact Info

Product

Resources

About

Ultralow Lattice Thermal Conductivity in Double Perovskite Cs₂PtI₆: A Promising Thermoelectric Material