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Research Article

Pressure effect on the structural, electronic, elastic, thermodynamic and optical properties of LiZnZ (Z = N, P, and As) Li-based half-Heusler

Y. Touala Faculty of Sciences, Laboratory of Solid Physics, Sidi Mohamed Ben Abdellah University, Fez, MoroccoCorrespondence[email protected]
,
S. Mouchoua Faculty of Sciences, Laboratory of Solid Physics, Sidi Mohamed Ben Abdellah University, Fez, Morocco
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A. Azouaouia Faculty of Sciences, Laboratory of Solid Physics, Sidi Mohamed Ben Abdellah University, Fez, Morocco;b Department of Physics and Chemistry, Ecole Normale Supérieur, Fes, MoroccoORCID Iconhttps://orcid.org/0000-0001-5332-4138
ORCID Icon,
A. Hourmatallaha Faculty of Sciences, Laboratory of Solid Physics, Sidi Mohamed Ben Abdellah University, Fez, Morocco;b Department of Physics and Chemistry, Ecole Normale Supérieur, Fes, Morocco
,
K. Bouslykhanea Faculty of Sciences, Laboratory of Solid Physics, Sidi Mohamed Ben Abdellah University, Fez, Morocco
&
N. Benzakoura Faculty of Sciences, Laboratory of Solid Physics, Sidi Mohamed Ben Abdellah University, Fez, Morocco
Received 26 Aug 2022, Accepted 12 Apr 2024, Published online: 10 Jun 2024
 
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ABSTRACT

Using first-principle calculations based on the density functional theory, we investigated the pressure effect on the structural, electrical, elastic, thermodynamic,electronic and optical properties of Li-based half-Heusler compounds LiZnZ (Z = N, P, and As). We found that the most stable structural phase is the α-phase at 0 GPa for all studied compounds. The obtained lattice parameters at 0 GPa align with existing experimental and theoretical findings for all compounds. The negative values of cohesive and formation energies of LiZnZ indicate that the studied compounds are chemically stable. Band structure calculations confirm the semiconductor behavior of all studied compounds. The calculated elastic and thermodynamic properties show that these compounds are mechanically and thermodynamically stable. The reflectivity values, which are approximately 39%, 54%, and 57% for LiZnN, LiZnP, and LiZnAs, respectively, suggest that the semiconductors LiZnZ are well-suited for optoelectronic applications.

Disclosure statement

No potential conflict of interest was reported by the author(s).

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