Investigation of structural, morphological and optical properties of Nickel-doped Zinc oxide thin films fabricated by co-sputtering


Bayram O., ŞENER E., İĞMAN E., ŞİMŞEK Ö.

JOURNAL OF MATERIALS SCIENCE-MATERIALS IN ELECTRONICS, cilt.30, sa.4, ss.3452-3458, 2019 (SCI-Expanded) identifier identifier

Özet

In this study, it was aimed to grow Nickel doped (0.0at.%, 0.16at.%, 0.20at. % and 0.24at. %) Zinc Oxide (NZO) thin films on quartz substrates using Magnetron Sputtering technique. NZO thin films were obtained at a temperature of 450 degrees C, a pressure of 480m Torr and a deposition time of 30min. Co-sputtering process for both Ni and ZnO target was performed using two separate power sources. The DC power of the Ni target material was 20, 30 and 40W, respectivelywhile the radio frequency (RF) power of the Zinc oxide (ZnO) target material was set to 150W. Using XRD analysis, thin films were found to have polycrystalline morphology, and the average crystallite size changed significantly depending on the increased Ni doping level. The optical Transmittance of the thin films was greater than 90% in the visible region(550 nm), and this value tends to decrease slightly by Nidoping. The optical band gap(E-g) firstly decreased and then slightly increased with the Nickel doping ratio and these values were found to be 3.23eV, 3.11eV and 3.15eV, respectively, with increase of Ni doping.