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Band alignment and chemical bonding at the GaAs/Al2O3 interface: A hybrid functional study

Alfredo Pasquarello, Giacomo Francesco Leonardo Miceli, Davide Colleoni
2015
Journal paper
Abstract

The band alignment at the interface between GaAs and amorphous Al2O3 is studied through the use of hybrid functionals. For the oxide component, a disordered model is generated through density-functional molecular dynamics. The achieved structure shows good agreement with the experimental characterization. The potential line-up across the interface is obtained for two atomistic GaAs/Al2O3 interface models, which differ by the GaAs substrate termination. The calculated valence band offset amounts to 3.9 eV for an interface characterized by the occurrence of Ga-O bonds as dominant chemical bonding, favoring the high-energy side in the range of experimental values (2.6-3.8 eV). The effect of As antisite and As-As dimer defects on the band alignment is shown to be negligible. (C) 2015 AIP Publishing LLC.

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