1. First‐principles calculations to investigate structural, electronic, optical, and transport properties of half‐Heusler VFeZ (Z = N and P) compounds.
- Author
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Muchiri, Perpetua Wanjiru, Agouri, M., Mohamed, Sahar Abdeen, Abbassi, A., Taj, S., Manaut, B., Dutta, Ashim, Khan, Junaid, Mundad, T., Bakkour, Youssef, and Al‐Anazy, Murefah mana
- Subjects
ELASTICITY ,THERMOELECTRIC generators ,DENSITY functional theory ,LATTICE constants ,PLANE wavefronts ,BAND gaps - Abstract
This research work investigates the structural, electronic, optical, and thermoelectric characteristics of VFeZ (Z = N and P) half‐Heusler compounds. The study employs the full‐potential linearized augmented plane wave (FP‐LAPW) method integrated into the WIEN2K algorithm, serving as the underpinning framework for density functional theory (DFT) analysis. In the study, we use the PBE generalized gradient approximation (PBE‐GGA) to identify numerous parameters associated with structural and elastic properties. Lattice parameter results are in agreement with previous outcomes. Moreover, computed elastic parameters satisfy the criterion for stability. In the cubic structure VFeZ (Z = N and P) is ductile, to enhance the computations of electronic characteristics, Tran and Blaha's modified Becke‐Johnson potential (TB‐mBJ) is used. Our simulations demonstrate that the materials exhibit semiconductor behavior, with a direct band gap for VFeZ (Z = N and P). Strong UV absorption is found via optical experiments suggest compounds are suitable for optical application. Furthermore, study of the thermoelectric properties suggests its application in the thermoelectric generators. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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