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1. Computed electronic and optical properties of SnO2 under compressive stress.

Author

Miglio, A., Saniz, R., Waroquiers, D., Stankovski, M., Giantomassi, M., Hautier, G., Rignanese, G.-M., and Gonze, X.

Subjects

*ELECTRICAL properties of tin oxides, *COMPRESSIVE strength, *STRAINS & stresses (Mechanics), *METAL microstructure, *DENSITY functional theory, *ELECTRONIC band structure, *MASS (Physics)

Abstract

We consider the effects of three different types of applied compressive stress on the structural, electronic and optical properties of rutile SnO 2 . We use standard density functional theory (DFT) to determine the structural parameters. The effective masses and the electronic band gap, as well as their stress derivatives, are computed within both DFT and many-body perturbation theory (MBPT). The stress derivatives for the SnO 2 direct band gap are determined to be 62, 38 and 25 meV/GPa within MBPT for applied hydrostatic, biaxial and uniaxial stress, respectively. Compared to DFT, this is a clear improvement with respect to available experimental data. We also estimate the exciton binding energies and their stress coefficients and compute the absorption spectrum by solving the Bethe–Salpeter equation. [ABSTRACT FROM AUTHOR]

Published

2014