Composition-Dependent Structural, Phonon, and Thermodynamical Characteristics of Zinc-Blende BeZnO

Author(s)

Talwar, Devki N.; Becla, Piotr

Abstract

Both ZnO and BeO semiconductors crystallize in the hexagonal wurtzite (wz), cubic rock salt (rs), and zinc-blende (zb) phases, depending upon their growth conditions. Low-dimensional heterostructures ZnO/BexZn1-xO and BexZn1-xO ternary alloy-based devices have recently gained substantial interest to design/improve the operations of highly efficient and flexible nano- and micro-electronics. Attempts are being made to engineer different electronic devices to cover light emission over a wide range of wavelengths to meet the growing industrial needs in photonics, energy harvesting, and biomedical applications. For zb materials, both experimental and theoretical studies of lattice dynamics ωj(q→) have played crucial roles for understanding their optical and electronic properties. Except for zb ZnO, inelastic neutron scattering measurement of ωj(q→) for BeO is still lacking. For the BexZn1-xO ternary alloys, no experimental and/or theoretical studies exist for comprehending their structural, vibrational, and thermodynamical traits (e.g., Debye temperature ΘD(T); specific heat Cv(T)) . By adopting a realistic rigid-ion model, we have meticulously simulated the results of lattice dynamics, and thermodynamic properties for both the binary zb ZnO, BeO and ternary BexZn1-xO alloys. The theoretical results are compared/contrasted against the limited experimental data and/or ab initio calculations. We strongly feel that the phonon/thermodynamic features reported here will encourage spectroscopists to perform similar measurements and check our theoretical conjectures.

Date issued

2025-07-01

URI

https://hdl.handle.net/1721.1/160034

Department

Massachusetts Institute of Technology. Department of Materials Science and Engineering

Journal

Materials

Publisher

Multidisciplinary Digital Publishing Institute

Citation

Talwar, D.N.; Becla, P. Composition-Dependent Structural, Phonon, and Thermodynamical Characteristics of Zinc-Blende BeZnO. Materials 2025, 18, 3101.

Version: Final published version