PHYSICAL PROPERTIES OF InN PARTICLES OBTAINED BY RF MAGNETRON SPUTTERING

InN layers were prepared by magnetron sputtering, in a mixed atmosphere of argon and nitrogen on Si substrates (100), Si (111), and glass. The substrate temperature Ts was varied (300-500 oC) in order to correlate it with the optical, structural, and morphological properties of the layers. X-ray results have revealed a presence of hexagonal InN type wurtzite in each of the layers in addition to oxides of indium (InxOy) attributed to different factors. Dependence was evident on the crystalline quality of each layer according to Ts. The optical absorption coefficient and the band gap were determined from the absorbance and transmittance spectra obtained by UV/Vis. Vibration modes associated with the semiconductor InN and InxOy were identified by Raman microscopy. The morphology of the layers and the grain size was analyzed from SEM micrographs where it was determined the formation of particulates ~ 0.5 mm and ~ 50 nm of different geometries.