Microstructures and complex impedance analysis of spray pyrolysis-synthesized Ni doped ZnO for optoelectronic applications

IF 2.7 Q2 PHYSICS, CONDENSED MATTER Micro and Nanostructures Pub Date : 2024-05-09 DOI:10.1016/j.micrna.2024.207861

S. Rajeh , Y. Bchiri , Y. Moualhi , K. Omri , N. Ihzaz , A. Mhamdi , H. Rahmouni , M. Amlouk , N. Bouguila

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Abstract

This study focuses on the physical exploration, particularly examining the structural and electrical attributes of ZnO thin films produced through spray deposition, with variations in the Ni/Zn ratio (0.25 %, 0.5 %, and 0.75 %). X-ray diffraction (XRD) analysis reveals that both undoped and Ni-doped ZnO films exhibit a hexagonal crystalline structure, with a preferred orientation along the (002) direction perpendicular to the substrate. The semiconductor nature of all prepared compounds is confirmed by the grain boundary resistance. An escalation in Ni concentration corresponds to an increase in grain boundary resistance. The activation energy values, derived from both relaxation time and grain boundary resistances, closely align. Impedance studies indicate the presence of two relaxation processes within the compounds. The Nyquist diagram illustrates the emergence of semicircles, with decreasing radii at higher temperatures, indicating thermally activated semiconductor behavior in these samples, as evidenced by electrical conductance and distribution of relaxation times.

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用于光电应用的喷雾热解合成掺杂镍氧化锌的微观结构和复阻抗分析

本研究的重点是物理探索，尤其是研究通过喷雾沉积法生产的氧化锌薄膜的结构和电气属性，镍/锌比例（0.25%、0.5% 和 0.75%）各不相同。X 射线衍射（XRD）分析表明，未掺杂和掺镍的氧化锌薄膜均呈现六方晶体结构，其优先取向沿垂直于基底的（002）方向。晶界电阻证实了所有制备化合物的半导体性质。镍浓度的增加与晶界电阻的增加相对应。根据弛豫时间和晶界电阻得出的活化能值非常接近。阻抗研究表明化合物中存在两个弛豫过程。奈奎斯特图显示了半圆的出现，温度越高半径越小，这表明这些样品中存在热激活半导体行为，电导率和弛豫时间的分布也证明了这一点。

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Micro and Nanostructures

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6.50

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