Investigating the physicochemical characteristics of monovalent metal-doped nickel oxide thin films

IF 1 4区材料科学 Q4 MATERIALS SCIENCE, MULTIDISCIPLINARY

Digest Journal of Nanomaterials and Biostructures Pub Date : 2024-03-26 DOI:10.15251/djnb.2024.191.359

C. Maghni, C. Zaouche, L. Dahbi, S. Saggai, E. Guedda

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Abstract

The effect of Ag doping on the optical, structural, and electrical properties of deposited Ni1-xAgxO thin films deposited on glass substrates by spray pyrolysis has been studied. This work aims to investigate the optical and physical characteristics variations of Ni1- xAgxO thin films fabricated into semiconductors with varying doping levels x. The values of 0 at.%, 2 at.%, 4 at.%, 6 at.%, and 8 at.% are these levels. The transmission spectra demonstrate the good optical transparency of the Ni1-xAgxO thin films in the visible range of 70% to 85%. The thin films of Ni1-xAgxO exhibited optical gap energies ranging from 3.63 to 3.71eV. Between 329 and 430meV was the range of the Urbach energy. Nonetheless, numerous flaws with the highest Urbach energy are observed in Ni0.92Ag0.08O thin films. The lowest optical gap energy is found in Ni0.92Ag0.08O thin sheets. A maximum of 0.024(Ω.cm)-1 electrical conductivity was observed in the Ni0.92Ag0.08O thin films. Our films have an average electrical conductivity of approximately 0.0176(Ω.cm)-1 . The Ni1- xAgxO thin film XRD patterns show that the films have a cubic structure and are polycrystalline.

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研究单价金属掺杂氧化镍薄膜的物理化学特性

研究了掺银对通过喷雾热解沉积在玻璃基底上的 Ni1-xAgxO 薄膜的光学、结构和电学特性的影响。这项工作旨在研究不同掺杂水平 x 的 Ni1- xAgxO 薄膜在制作成半导体时的光学和物理特性变化。透射光谱显示，Ni1-xAgxO 薄膜在 70% 至 85% 的可见光范围内具有良好的光学透明度。Ni1-xAgxO 薄膜的光隙能在 3.63 至 3.71eV 之间。厄巴赫能量范围在 329 至 430meV 之间。然而，在 Ni0.92Ag0.08O 薄膜中观察到许多具有最高乌巴赫能的缺陷。Ni0.92Ag0.08O 薄膜的光隙能最低。在 Ni0.92Ag0.08O 薄膜中观察到最高的 0.024(Ω.cm)-1 电导率。我们的薄膜的平均电导率约为 0.0176（Ω.cm）-1。Ni1- xAgxO 薄膜的 XRD 图谱显示，薄膜具有立方结构，并且是多晶体。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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