Composition and emission characterization and computational simulation of silicon rich oxide films obtained by LPCVD

Silicon rich oxide (SRO) is a silicon compatible material that could solve the light emission limitation inherent to bulk silicon. However, not many applications are yet reported, since still much research has to be done. In this paper, SRO superficial films were obtained by low pressure chemical vapor deposition. Structural and optical characterization was done by X-ray photoelectron spectroscopy and Fourier transform infrared spectroscopy (FTIR) corroborating that after annealing, the SiO and the Si2O phase clearly increases. Emission of SRO in the range between ultra violet and near-infrared is determined by photo, electro and cathode luminescence. Assuming that emission is due to agglomerates of Si-O compounds, computational simulations of cyclic chains of SiO were done to calculate the FTIR spectra, emission and HOMO-LUMO densities. It was found that emission of molecules with less than 10 silicon atoms is not likely to be present in the annealed films. However, for molecules with more than 13 silicon atoms, the emission extends to the visible and near infrared region. The calculated FTIR agrees with the experimental results. Copyright © 2013 John Wiley %26amp; Sons, Ltd.

DFT; electro and cathode luminescence; moieties; photo; SRO films Cathodes; Fourier transform infrared spectroscopy; Infrared devices; Luminescence; Molecules; Oxide films; Silicon oxides; X ray photoelectron spectroscopy; Cathode luminescence; Computational simulation; Emission characterization; moieties; photo; Silicon-rich oxide films; Structural and optical characterizations; Visible and near infrared; Silicon compounds

VIVO