OPTICAL AND SURFACE-PROPERTIES OF SPRAY-PYROLYZED CDS THIN-FILMS

Variations in the real and imaginary parts of the refractive index of CdS films with preparation temperature were studied using variable-ang le spectroscopic ellipsometry (VASE). The samples studied were prepare d by the spray pyrolysis technique at various substrate temperatures i n the range 200-360 degrees C. The VASE measurements were taken in the wavelength range 530-600 nm. Thicknesses of the samples were in the r ange 500-600 nm. Bruggeman's effective medium theory was used for surf ace roughness analysis. In the present study it was observed that the thickness of the rough layer decreases with increasing substrate tempe rature and reaches a minimum (similar to 27 nm) in the range 280-300 d egrees C. Thereafter it slowly increases. Scanning electron microscopy shows that the film prepared at 300 degrees C has a smooth texture. X -Ray diffraction patterns also indicate that samples prepared in this temperature range have better crystalline quality. The packing density of the films prepared at various temperatures also confirms this. The deposition rate of CdS thin films prepared by spray pyrolysis is also measured. The real part (n) of the refractive index of the CdS film i ncreases with increasing substrate temperature. The n value is slightl y less than that of the bulk sample. Similarly the imaginary part (k) of the refractive index also increases with increasing substrate tempe rature. The k value of the film is higher than that of the bulk medium . Resistivity measurements on the films show that the resistivity decr eases with increasing substrate temperature.