Abstract
Abstract A hybrid approach of forming a stabilizing layer of bonded carbon on porous silicon (PSi) surface by photoassisted reaction of acetylene gas at low temperatures is described. The PSi samples were made by anodization in a HF/H 2 O 2 electrolyte at a current density of 80 mA/cm 2 . Samples show a strong luminescence with a peak at 644±4 nm. The photoluminescence (PL) intensity shows a very strong quenching under the influence of continuous laser illumination (∼0.25 W/cm 2 , 488 nm). The PSi samples were subjected to flowing acetylene under optical illumination from quartz halogen lamp (20 mW/cm 2 ). The PL intensity is initially quenched to very low values (less than 5% of initial value) and then recovers on further exposure to acetylene to a final value ∼30% of the initial value. No quenching is observed on further exposure to laser illumination in ambient air instead an improvement of 15–25% in PL intensity is observed. This behaviour is a good indicator of the formation of a practically stable PSi surface.
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