A comprehensive study of the thermophysical and optoelectronic properties of Nb2P5 via ab-initio technique

A comprehensive study of the thermophysical and optoelectronic properties of Nb2P5 via ab-initio technique

•A large number of physical properties of Nb2P5 are studied for first time.•Nb2P5 is a moderately hard, highly machinable, elastically anisotropic layered compound.•Nb2P5 is a metallic system with high DOS at the Fermi level where Coulomb pseudopotential is also high.•Nb2P5 shows features suitable f...

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Bibliographic Details
Published in:Results in physics Vol. 28; p. 104623
Main Authors: Naher, M.I., Naqib, S.H.
Format: Journal Article
Language:English
Published: Elsevier B.V 01-09-2021
Elsevier
Subjects:
Band structure
Density functional theory
Elastic properties
Optical properties
Thermophysical properties
Band structure
Density functional theory
Elastic properties
Thermophysical properties
Optical properties
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Summary:•A large number of physical properties of Nb2P5 are studied for first time.•Nb2P5 is a moderately hard, highly machinable, elastically anisotropic layered compound.•Nb2P5 is a metallic system with high DOS at the Fermi level where Coulomb pseudopotential is also high.•Nb2P5 shows features suitable for thermal barrier coating material.•Absorption and reflectivity spectra of Nb2P5 show features suitable for applications. Binary metallic phosphide, Nb2P5, belongs to important class of materials from the stand point of engineering applications. Quite surprisingly, a large number of physical properties of Nb2P5, including elastic properties and their anisotropy, acoustic, thermophysical, bonding characteristics, and optoelectronic properties have not been investigated in any detail yet. In the present work we have explored all these properties extensively for the first time employing density functional theory based first-principles calculations. Nb2P5 is found to be a mechanically stable, elastically anisotropic compound with weak brittle character. The bondings among the atoms are dominated by covalent and ionic contributions with small signature of metallic feature. The compound possesses high level of machinability. Nb2P5 is a moderately hard compound. Electronic band structure calculations reveal metallic conduction with a large electronic density of states at the Fermi level. Calculated values of different thermal properties indicate that Nb2P5 has the potential to be used as a thermal barrier coating material. The energy dependent optical parameters show close agreement with the underlying electronic band structure. The optical absorption and reflectivity spectra and the static index of refraction of Nb2P5 disclose that the compound has potential to be used in optoelectronic applications. Unlike notable anisotropy in elastic and mechanical properties, the optical constants spectra are found to be largely isotropic.
ISSN:2211-3797
2211-3797
DOI:10.1016/j.rinp.2021.104623