Malak Azmat Ali scite author profile

The structural, electronic, magnetic, optical and thermoelectric properties of anti-fluorite Cs 2 NbI 6 were investigated using full potential augmented plane wave method of density functional theory. Structurally, Cs 2 NbI 6 was found to be cubic in ground state from values of tolerance factor (1.04) and formation energy (−22.3 eV). While, it's ferromagnetic nature was predicted from volume optimization process. In spin down channel, the compound was explored as indirect band gap (E g(Γ-X) = 1.97 eV) semiconductor, while it changes to metallic in upper spin channel. Nb-d and I-p states were exposed as the main cause of spin dependent electronic nature (half-metallicity). The origin of magnetism in Cs 2 NbI 6 was explained on basis of crystal field theory. The calculated magnetic moment (1.001 μ B) was found in reasonable agreement with experimental value. The optimum absorption and optical conductivity spectra in semiconductor state explored Cs 2 NbI 6 as suitable for optoelectronic devices. Furthermore, the transport properties were calculated using BoltzTrap code. The nature of carriers was predicted as n type from negative values of Seebeck coefficients. Where, the figure of merit (ZT) was found to increase up to 0.85 at 900 K. The present work not only explores Cs 2 NbI 6 as potential optoelectronic and thermoelectric material, but can also inspire more experimental research on this important compound.

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Malak Azmat Ali

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Malak Azmat Ali

Ab initio study for the structural, electronic, magnetic, optical, and thermoelectric properties ofK2OsX6(X = Cl, Br) compounds

First-principles investigations of Ba2NaIO6 double Perovskite semiconductor: Material for low-cost energy technologies

Defective perovskites Cs2SeCl6 and Cs2TeCl6 as novel high temperature potential thermoelectric materials

First-principles calculations for optoelectronic properties of AlSb and GaSb under influence of spin–orbit interaction effect

The significance of anti‐fluorite Cs 2 NbI 6 via its structural, electronic, magnetic, optical and thermoelectric properties

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Product

Resources

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Ab initio study for the structural, electronic, magnetic, optical, and thermoelectric properties ofK₂OsX₆(X = Cl, Br) compounds

The significance of anti‐fluorite Cs ₂ NbI ₆ via its structural, electronic, magnetic, optical and thermoelectric properties