F. Muller et al., PHOTOLUMINESCENCE AND ELECTROLUMINESCENCE FROM ELECTROCHEMICALLY OXIDIZED POROUS SILICON LAYERS, Journal of luminescence, 57(1-6), 1993, pp. 283-292
In this paper we review the luminescence properties of porous silicon
layers formed on p-type silicon substrates and subsequently oxidized b
y anodic polarization in an aqueous electrolyte. The electrochemical o
xidation of the porous material leads to a large increase in the photo
luminescence intensity, accompanied by a blue shift of the emitted spe
ctra. A bright visible electroluminescence is also observed during ano
dic treatment, with characteristics showing similar trends to that of
the photoluminescence. The features of the emission are analyzed using
a model that expresses the energy dependence of the emitted intensity
. The model is developed on the hypothesis that the visible light emis
sion originates in the confinement of charge carriers in the quantum-s
ized crystallites which form the material, and that its efficiency is
determined by nonradiative processes, which involve the carrier escape
from the confined zone where they are created (or injected) through a
tunnelling mechanism. This model is shown to be well supported by the
experimental results, and allows an understanding of the spectral shi
fts and the intensity variations of both photoluminescence and electro
luminescence during electrochemical oxidation of the porous layers.