Physical properties of molybdenum monoboride: Ab-initio study

The Ab initio investigations on structural, electronic, optical and thermal properties of MoB have been reported using full potential linearised-augmented plane wave method within the framework of density functional theory. The exchange and correlation potentials were calculated using the Perdew-Bur...

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Bibliographic Details
Published in:Philosophical magazine (Abingdon, England) England), 2018-02, Vol.98 (5), p.422-436
Main Authors: Rajpoot, Priyanka, Rastogi, Anugya, Verma, U. P.
Format: Article
Language:English
Subjects:
Ab initio study
electronic properties
optical properties
structure properties
thermal properties
Transition metal boride
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Summary:The Ab initio investigations on structural, electronic, optical and thermal properties of MoB have been reported using full potential linearised-augmented plane wave method within the framework of density functional theory. The exchange and correlation potentials were calculated using the Perdew-Burke-Ernzerhof-Sol generalised gradient approximation. The calculated equilibrium lattice constants and cell volume are in excellent agreement with the experimental results as compared to the available theoretical data. Electronic band structure shows that MoB is metallic in nature. From the partial densities of states of MoB it has been found that major contribution on the Fermi level is due to Mo-4d states. Among the reported optical parameters the large value of reflectivity at low energy shows that MoB can be used as a coating material in IR region. Maximum absorption in extreme UV region shows that it can be used in production of electricity through solar power in space vehicles. Various thermal properties have been calculated in a wide temperature range at high pressures. Change in thermal expansion coefficient with respect to temperature shows that anharmonic effect in MoB is very weak at high temperature. The optical and thermal properties of MoB are presented for the first time in this work.
ISSN:1478-6435
1478-6443
DOI:10.1080/14786435.2017.1407881