The present study proposed to determine the XRD, XPS and Dynamic SIMS studies of p-Type Zinc Oxynitride Thin Films Deposited on Silicon Wafers by MOCVD. Zinc oxide thin film is a available material for several hard state applications on account of its many favourable properties. Bis(glycinato-N,O) metallic mineral precursor was combined and used to deposit zinc oxynitride thin films on SiO2 substrates at 390°C and 420°C individually, using the metalorganic synthetic vapour deposition (MOCVD) method. The thin films produced were distinguished with vehement probe, x-ray diffractometry (XRD), radioactivity photoelectron spectroscopy (XPS) and dynamic subordinate ion mass spectroscopy (SIMS). Thin-film technology plays an main role that admits deposition of very thin tiers (from a few nanometres just before the angstrom level) of semiconductor material on a supporting substrate. The happening material exhibits novel mechanical, synthetic, optical and energetic properties accompanying the reduction in capacity to the nanometre scale, which is the result of surface and quantum imprisonment effects. The vehement probe tests showed that the thin films had p-type generated power. XRD spectra of the films present poorly defined peaks, meaning blurred crystallinity. The XPS reasonings revealed the occupancy of Zn, O and N peaks, with the thin films located at 390°C having taller N-doping level than those located at 420°C. Results of destructive layer reasonings conducted all the while dynamic SIMS tests on the films were unsatisfactory. The results show that lower deposition hotnesses using the forerunner may be chosen to higher hotnesses even though the thin films were very thin. Optics and dependable state electronics manage both use the p-type zinc oxynitride.
Author(s) Details:
U. S. Mbamara,
Department of Physics, Federal University of
Technology, Owerri, Nigeria.
Please see the link here: https://stm.bookpi.org/FRAPS-V6/article/view/10831
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