M.K. Bamgbose scite author profile

In this work, details density functional theory calculations were performed to obtain the electronic, elastic, phonon and thermodynamic properties of half-Heusler alloys HfNiX (X = Ge and Sn). The PBE functional as implemented in Projector augmented-wave (PAW) pseudopotentials was used for all the calculations. From our results, we reported the energy gap of 0.38 eV for HfNiSn and 0.61 eV for HfNiGe indicating the semiconductor property of these compounds. Also, the mechanical and elastical stabilities of these compounds were confirmed from the comparison of the elastic constants of these compounds with conditions for stabilities. Although the phonon dispersion curves for HfNiGe and HfNiSn are similar with splitting at the Γ point, the shift in their frequency was as a result of the mass different in Ge and Sn. The phonon dispersion curve predicts the dynamically stabilities of these half-Heusler alloys. From the thermodynamic properties of these compounds, it was revealed that these compounds are soft at low temperature, but at a high temperature they tend to be hard materials. Our calculations showed that these two compounds are mechanically, elastically and dynamically stable as cubic half-Heusler alloys.

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M.K. Bamgbose

First-principles study of electronic structure and thermoelectric properties of p-type XIrSb(X = Ti, Zr and Hf) half-Heusler compounds

Exploring the electronic fitness function, effective mass, elastic and transport properties of RhTiP Half-Heusler alloy

First-principle survey of structural, electronic, and optical properties of zinc-blendeBxAlyGa1
Bamgbose¹,
Adebambo
²
,
Solola
³

et al. 2018
Materials Letters
4
0
4
0
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Electronic structure and thermoelectric properties of HfRhZ(Z = As, Sb and Bi) half-Heusler compounds

Predicting the elastic, phonon and thermodynamic properties of cubic HfNiX (X = Ge and Sn) Half Heulser alloys: a DFT study

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M.K. Bamgbose

First-principles study of electronic structure and thermoelectric properties of p-type XIrSb(X = Ti, Zr and Hf) half-Heusler compounds

Exploring the electronic fitness function, effective mass, elastic and transport properties of RhTiP Half-Heusler alloy

First-principle survey of structural, electronic, and optical properties of zinc-blendeBxAlyGa1Bamgbose1, Adebambo2, Solola3 et al. 2018Materials Letters4040View full textAdd to dashboardCite

Electronic structure and thermoelectric properties of HfRhZ(Z = As, Sb and Bi) half-Heusler compounds

Predicting the elastic, phonon and thermodynamic properties of cubic HfNiX (X = Ge and Sn) Half Heulser alloys: a DFT study

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First-principle survey of structural, electronic, and optical properties of zinc-blendeBxAlyGa1
Bamgbose¹,
Adebambo
²
,
Solola
³

et al. 2018
Materials Letters
4
0
4
0
View full text Add to dashboard Cite