A. Youvanidha, B. Vidhya, P. Nelson, R. Kannan, S. Babu
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引用次数: 6
Abstract
Zinc Oxide is a prominent wide bandgap material with an appreciable transparency which is widely utilized in transparent conducting oxide applications. However, metal doping on ZnO reports were extensively investigated for tuning the electrical p roperties. This article is focused on pulsed laser deposition of ZnO-Y2O3 (YZO) thin films with various concentrations of Y2O3 (0-5%) as a dopant in ZnO. X-ray diffraction spectrum of the YZO thin films exhibit s the presence of hexagonal wurtzite structure with a preferential orientation along the (002) plane. M orphology aspects of the film abides with XRD results which shown a uniform distribution till 2 wt% and displayed a gain in grain growth with increasing wt% of Y2O3. The influence of Y2O3 concentration on the optical transmittance of ZnO is investigated by Uv- Vis spectroscopy. The electrical resistivity of the deposited films is in the order ∼10−4 which was on par with the earlier reports suitable for TCO applications.Zinc Oxide is a prominent wide bandgap material with an appreciable transparency which is widely utilized in transparent conducting oxide applications. However, metal doping on ZnO reports were extensively investigated for tuning the electrical p roperties. This article is focused on pulsed laser deposition of ZnO-Y2O3 (YZO) thin films with various concentrations of Y2O3 (0-5%) as a dopant in ZnO. X-ray diffraction spectrum of the YZO thin films exhibit s the presence of hexagonal wurtzite structure with a preferential orientation along the (002) plane. M orphology aspects of the film abides with XRD results which shown a uniform distribution till 2 wt% and displayed a gain in grain growth with increasing wt% of Y2O3. The influence of Y2O3 concentration on the optical transmittance of ZnO is investigated by Uv- Vis spectroscopy. The electrical resistivity of the deposited films is in the order ∼10−4 which was on par with the earlier reports suitable for TCO applications.
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