Abstract
The optical properties of bilayer thin films of Bi/As2S3 with various thicknesses which were prepared from Bi and As2S3 by thermal evaporation technique under high vacuum were characterized by Fourier Transformed Infrared Spectroscopy, X-ray photoelectron spectroscopy (XPS) and Raman spectroscopy. The prepared bilayer films of 905nm, 910nm and 915nm thickness have As2S3 as bottom layer (900nm) and Bi as top layer (5,10,15nm). X-ray diffraction studies confirm the amorphous nature of the prepared films. The optical properties show a strong dependence on the film thickness. It was found that the optical band gap increases with film thickness. The obtained lower values of Urbach energy indicate that as thickness increases, more ordered films can be produced. The reduction in disorder in bonding network is amply supported by the way of increase in band gap, increase in Tauc parameter (B1/2) and reduction in Urbach energy from the analysis of transmittance spectra. The change in XPS core level spectra and Raman spectra also shows the changes due to thickness.
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