Electronic properties and lattice dynamics of bulk epsilon-GaSe and one, two, and three tetralayers GaSe are investigated by means of density functional and density functional perturbation theory. The few-tetralayer systems are semiconductors with an indirect nature of the fundamental band gap and a Mexican-hat shape is observed at the top of the valence band. The phonon branch analysis reveals the dynamical stability for all systems considered together with the LO-TO splitting breakdown in two-dimensional systems. In-plane (E) and out-of-plane (A) zone-center lattice vibrations dominate the Raman and IR spectra.
Bejani, M., Pulci, O., Barvestani, J., Vala, A.s., Bechstedt, F., Cannuccia, E. (2019). Lattice vibrations and electronic properties of GaSe nanosheets from first principles. PHYSICAL REVIEW MATERIALS, 3(12) [10.1103/PhysRevMaterials.3.124003].
Lattice vibrations and electronic properties of GaSe nanosheets from first principles
Pulci O.;Cannuccia E.
2019-01-13
Abstract
Electronic properties and lattice dynamics of bulk epsilon-GaSe and one, two, and three tetralayers GaSe are investigated by means of density functional and density functional perturbation theory. The few-tetralayer systems are semiconductors with an indirect nature of the fundamental band gap and a Mexican-hat shape is observed at the top of the valence band. The phonon branch analysis reveals the dynamical stability for all systems considered together with the LO-TO splitting breakdown in two-dimensional systems. In-plane (E) and out-of-plane (A) zone-center lattice vibrations dominate the Raman and IR spectra.| File | Dimensione | Formato | |
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