Abstract

The effects of vacuum annealing on the optical absorption spectra in the visible and infrared ranges, photoluminescence intensity, and concentration of paramagnetic centers in free-standing porous silicon films were investigated in a temperature range of 100–600 °C. It was found that heat-induced hydrogen desorption decreased the porous silicon band gap, which suggests that band-gap energy depends on hydrogen coverage of nanoparticles. The annealing also leads to increasing concentration of defects that were identified as silicon dangling bonds. The energy distribution of the dangling-bond states was estimated from the absorption spectrum.