Structural and electronic properties of Ga2O3-Al2O3 alloys

Structural and electronic properties of Ga2O3-Al2O3 alloys

Ga2O3 is emerging as an important electronic material. Alloying with Al2O3 is a viable method to achieve carrier confinement, to increase the bandgap, or to modify the lattice parameters. However, the two materials have very different ground-state crystal structures (monoclinic β-gallia for Ga2O3 an...

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Veröffentlicht in:Applied physics letters 2018-06, Vol.112 (24)
Hauptverfasser: Peelaers, Hartwin, Varley, Joel B., Speck, James S., Van de Walle, Chris G.
Format: Artikel
Sprache:eng
Schlagworte:
Alloying effects
Alloys
Aluminum oxide
Applied physics
Bowing
Corundum
Crystal lattices
Crystal structure
Density functional theory
Electronic materials
Gallium oxides
Lattice parameters
MATERIALS SCIENCE
Monoclinic lattice
Parameter modification
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Zusammenfassung:Ga2O3 is emerging as an important electronic material. Alloying with Al2O3 is a viable method to achieve carrier confinement, to increase the bandgap, or to modify the lattice parameters. However, the two materials have very different ground-state crystal structures (monoclinic β-gallia for Ga2O3 and corundum for Al2O3). Here, we use hybrid density functional theory calculations to assess the alloy stabilities and electronic properties of the alloys. We find that the monoclinic phase is the preferred structure for up to 71% Al incorporation, in close agreement with experimental phase diagrams, and that the ordered monoclinic AlGaO3 alloy is exceptionally stable. We also discuss bandgap bowing, lattice constants, and band offsets that can guide future synthesis and device design efforts.
ISSN:0003-6951
1077-3118
DOI:10.1063/1.5036991