<scp>DFT</scp> study of the half‐metallic variant perovskites <scp>A<sub>2</sub>OsX<sub>6</sub> (A = Rb/Cs; X = Cl/Br)</scp> for spintronic and thermoelectric applications

Ullah, Rehan; Faizan, Muhammad; Khan, Shah Haidar

doi:10.1002/qua.27370

Int J of Quantum Chemistry

2024

DOI: 10.1002/qua.27370

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DFT study of the half‐metallic variant perovskites A₂OsX₆ (A = Rb/Cs; X = Cl/Br) for spintronic and thermoelectric applications

Rehan Ullah,

Muhammad Faizan,

Shah Haidar Khan

Abstract: We present our results of the spin‐polarized calculations on the structural, magneto‐electronic, thermodynamic, and thermoelectric properties of vacancy‐ordered double perovskites A2OsX6 (A = Rb/Cs; X = Cl/Br). We utilized the Wu‐Cohen generalized gradient approximation (Wu‐GGA) and the mBJ scheme to determine a more reliable electronic structure. The compounds exhibit negative formation energy, suitable tolerance factor, and a stable phonon spectrum, indicating their stability. The compounds show half‐metalli… Show more

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2024

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Cited by 2 publications

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A First‐Principle Study Investigating the Half‐Metallic and Mechanical Properties of Double Halide Perovskites Rb₂OsX₆ (X = cl, Br, and I) for Spintronic Applications

Boubchir,

Bordjiba,

Amraoui

et al. 2024

J Comput Chem

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In this work, we present a density functional calculation of the structural, electronic, and mechanical properties of cubic double halide perovskites Rb2OsX6 (X = Cl, Br, and I). Our results show that these compounds are stable in the ferromagnetic phase with lattice parameters, bulk modulus, and their first‐pressure derivatives in good agreement with other available theoretical data. The negative values of cohesive energy and formation energy, along with the absence of negative or imaginary frequencies in the phonon spectrum, confirm the mechanical stability of all the compounds. The Curie temperature (Tc) is determined using a Heisenberg model in the mean‐field approximation. We obtained a half‐metallic character for all compounds, making them promising materials for spintronic applications. The magnetic properties indicate that the Os atoms in all compounds are responsible for the magnetism, while the positive exchange constants suggest a strong preference for ferromagnetic alignment. This indicates a stable ferromagnetic phase and potential applications in spintronics. The mechanical properties demonstrate that the compounds studied are isotropic and ductile.

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A First‐Principle Study Investigating the Half‐Metallic and Mechanical Properties of Double Halide Perovskites Rb₂OsX₆ (X = cl, Br, and I) for Spintronic Applications

Boubchir,

Bordjiba,

Amraoui

et al. 2024

J Comput Chem

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First-Principles Study of Structural, Elastic, Mechanical, Magnetic, Electronic and Thermoelectric Properties of Half Metallic Ga2NbX6 (X = Cl, Br) Variant Perovskites

Khan,

Ali

et al. 2024

J Inorg Organomet Polym

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DFT study of the half‐metallic variant perovskites A₂OsX₆ (A = Rb/Cs; X = Cl/Br) for spintronic and thermoelectric applications

Cited by 2 publications

References 75 publications

A First‐Principle Study Investigating the Half‐Metallic and Mechanical Properties of Double Halide Perovskites Rb₂OsX₆ (X = cl, Br, and I) for Spintronic Applications

A First‐Principle Study Investigating the Half‐Metallic and Mechanical Properties of Double Halide Perovskites Rb₂OsX₆ (X = cl, Br, and I) for Spintronic Applications

First-Principles Study of Structural, Elastic, Mechanical, Magnetic, Electronic and Thermoelectric Properties of Half Metallic Ga2NbX6 (X = Cl, Br) Variant Perovskites

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DFT study of the half‐metallic variant perovskites A2OsX6 (A = Rb/Cs; X = Cl/Br) for spintronic and thermoelectric applications

Cited by 2 publications

References 75 publications

A First‐Principle Study Investigating the Half‐Metallic and Mechanical Properties of Double Halide Perovskites Rb2OsX6 (X = cl, Br, and I) for Spintronic Applications

A First‐Principle Study Investigating the Half‐Metallic and Mechanical Properties of Double Halide Perovskites Rb2OsX6 (X = cl, Br, and I) for Spintronic Applications

First-Principles Study of Structural, Elastic, Mechanical, Magnetic, Electronic and Thermoelectric Properties of Half Metallic Ga2NbX6 (X = Cl, Br) Variant Perovskites

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Product

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DFT study of the half‐metallic variant perovskites A₂OsX₆ (A = Rb/Cs; X = Cl/Br) for spintronic and thermoelectric applications

A First‐Principle Study Investigating the Half‐Metallic and Mechanical Properties of Double Halide Perovskites Rb₂OsX₆ (X = cl, Br, and I) for Spintronic Applications

A First‐Principle Study Investigating the Half‐Metallic and Mechanical Properties of Double Halide Perovskites Rb₂OsX₆ (X = cl, Br, and I) for Spintronic Applications