M Zare, A Shokrollahi and F Seraji- Applied Surface Science, 2011
Porous silicon (PS) layers were fabricated by anodization of low resistive (highly doped) p-type silicon in HF/ethanol solution, by varying current density, etching time and HF concentration. Atomic force microscopy (AFM) and field emission scanning electron microscope (FESEM) analyses were used to investigate the physical properties and reflection spectrum was used to investigate the optical behavior of PS layers in different fabrication conditions. Vertically aligned mesoporous morphology is observed in fabricated films and with HF concentration higher than 20%. The dependence of porosity, layer thickness and rms roughness of the PS layer on current density, etching time and composition of electrolyte is also observed in obtained results. Correlation between reflectivity and fabrication parameters was also explored. Thermal oxidation was performed on some mesoporous layers that resulted in changes of surface roughness, mean height and reflectivity of the layers… The reflection spectrum was evaluated by Stellar Net EPP2000-HR High Resolution Miniature Spectrometer… For this purpose, we take a halogen – tungsten lamp as a light source and a Stellar Net EPP2000-HR Miniature Spectrometer with 5 Å resolution.