The first principles studies of the MgB7 compound: Hard material

The electronic, mechanical, and vibrational properties of MgB7 are investigated by means of density functional theory as implemented in pseudo-potential plane wave approach. Using the calculated elastic constants, the bulk modulus, shear modulus, Young's modulus, Possion's ratio, Debye tem...

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Veröffentlicht in:	Intermetallics 2013-08, Vol.39, p.84-88
Hauptverfasser:	Ozisik, H., Deligoz, E., Colakoglu, K., Ateser, E.
Format:	Artikel
Sprache:	eng
Schlagworte:	B. Elastic properties Borides Debye temperature E. Ab-initio calculations Electronics Entropy Magnesium compounds Mathematical analysis Plane waves Semiconductors
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description	The electronic, mechanical, and vibrational properties of MgB7 are investigated by means of density functional theory as implemented in pseudo-potential plane wave approach. Using the calculated elastic constants, the bulk modulus, shear modulus, Young's modulus, Possion's ratio, Debye temperature, hardness, and anisotropy value were derived. It is found that MgB7 in considered structure is mechanically stable and exhibits brittle character according to the B/G criterion. The band structure of this compound is a semiconductor with an indirect band gap. Furthermore, the phonon dispersion, density of states, Born effective charge tensors, Grüneisen parameter, temperature-dependent variations of the internal energy, free energy, entropy, and heat capacity are also computed and discussed. •The structural, elastic, electronic and lattice dynamical properties of MgB7 have been investigated.•MgB7 is a semiconductor with an indirect band gap.•This compound is both mechanically and dynamically stable.
doi_str_mv	10.1016/j.intermet.2013.03.016
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Using the calculated elastic constants, the bulk modulus, shear modulus, Young's modulus, Possion's ratio, Debye temperature, hardness, and anisotropy value were derived. It is found that MgB7 in considered structure is mechanically stable and exhibits brittle character according to the B/G criterion. The band structure of this compound is a semiconductor with an indirect band gap. Furthermore, the phonon dispersion, density of states, Born effective charge tensors, Grüneisen parameter, temperature-dependent variations of the internal energy, free energy, entropy, and heat capacity are also computed and discussed. •The structural, elastic, electronic and lattice dynamical properties of MgB7 have been investigated.•MgB7 is a semiconductor with an indirect band gap.•This compound is both mechanically and dynamically stable.</description><subject>B. Elastic properties</subject><subject>Borides</subject><subject>Debye temperature</subject><subject>E. 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subjects	B. Elastic properties Borides Debye temperature E. Ab-initio calculations Electronics Entropy Magnesium compounds Mathematical analysis Plane waves Semiconductors
title	The first principles studies of the MgB7 compound: Hard material
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