Effect of low energy (keV) ion irradiation on structural, optical and morphological properties of SnO_2-TiO_2 nanocomposite thin films

摘要

RF Sputtering deposition technique was used to deposit the thin films of nanocomposite oxides as SnO~(2)–TiO~(2)on Si and ITO coated glass substrate. As a target, SnO~(2)–TiO~(2)was taken according to their molecular weight percent ratio of 3:1. Material modification has been induced by low energy ion beam with varying ion fluence from 5E13 to 5E16 ions/cm_(2). Glancing Angle X-ray Diffraction technique was used to study crystallite size, phase transformation and stability of different planes of pristine and irradiated thin films. The important peaks observed in XRD pattern were at angles 26.95°, 34.27°, 37.60°, 50.88° and 52.46°. The grain size distribution and surface morphology were studied by Atomic Force Microscopy technique in tapping mode. The results show that the grain size varies with ion fluence. Raman analysis revealed that the sharp peak at the frequency of 520 cm_(−1)ascribed to the T~(2g)mode was observed for the pristine and lowest fluence irradiated film deposited on Si substrate. With increasing ion fluence, an opposite trend in SnO~(2)B~(2g)peak was observed at nearly 775 cm_(−1)and the also peak bump was observed as a function of ion beam fluence. The optical band gap decreases from 3.90 to 3.63 eV due to the generation of ions and free radicals in valance band by varying ion fluence which was observed by UV/Visible Spectroscopy. The film thickness was determined to be 220 nm using Rutherford Backscattering Spectrometry. It also confirmed the absence of any impurities in the pristine and irradiated thin films. The material properties were mainly modified by the point defects and grain size growth arising due to nuclear energy loss.