Factors Affecting the Synthesis of Nano-Structure Materials

Lila A. Alkhtaby
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Abstract

We have to study the factors affecting the synthesis of Co doping ZnO Nano powder with the sol – gel method to study the effect of quantity or doping concentration we fix the reaction base at pH = 9 and change the doping concentration the structural and morphology carried out with X-ray and SEM show hexagonal wurtzite nanoparticles for Zn 1-x Co x O for x = 0.01 and x = 0.05 and increase of the cell volume and lattice parameter with increase of x concentration ,the florescence spectroscopy at room temperature show peaks at ultraviolet for both concentration with read shift for x = 0.05. To study the effect of pH value we fix doping concentration at x = 0.05, SEM shows a spherical nanoparticle with size 38 – 52 nm for pH = 9 and hexagonal nanoparticles with size 42 – 52 nm for pH = 6. The florescence spectroscopy at room temperature exhibit that for pH = 9 there is no band observed in the ultraviolet region bands are around 380,420 and 475 nm. The Ultraviolet/Visible (UV) Spectroscopy exhibit decrease of the band gap energy with increase doping concentration and decrease with increase pH value. Copyright © VBRI Press.
影响纳米结构材料合成的因素
我们必须研究影响因素的合成Co掺杂氧化锌纳米粉体的溶胶-凝胶方法研究数量或掺杂浓度的影响在pH = 9我们修复反应基地,改变掺杂浓度的结构和形态进行了x射线和扫描电镜显示六角纤锌矿型纳米颗粒对锌1 - x公司x O x = 0.01和x = 0.05,增加细胞的体积和晶格参数x的浓度增加,开花的光谱当x = 0.05时,两种浓度在室温下均出现紫外峰。为了研究pH值的影响,我们将掺杂浓度固定在x = 0.05, SEM显示pH = 9时粒径为38 ~ 52 nm的球形纳米颗粒和pH = 6时粒径为42 ~ 52 nm的六边形纳米颗粒。室温下的荧光光谱表明,当pH = 9时,在紫外区没有观察到波段,波段约为380,420和475 nm。紫外/可见光谱显示,禁带能随掺杂浓度的增加而减小,随pH值的增加而减小。版权所有©VBRI出版社。
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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