| 纳米SnO_2:Sb导电薄膜制备及导电网络形成机理 |
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| 引用本文: | 罗美芳,陈雪花,李春忠,邵玮.纳米SnO_2:Sb导电薄膜制备及导电网络形成机理[J].化学世界,2010,51(5). |
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| 作者姓名: | 罗美芳 陈雪花 李春忠 邵玮 |
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| 作者单位: | 华东理工大学材料科学与工程学院超细材料制备与应用教育部重点实验室,上海,200237 |
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| 摘 要: | 在三乙醇胺作用下利用SnCl4和SbCl3共沉淀合成了SnO2:Sb纳米粒子,通过球磨分散得到了纳米SnO2:Sb网络结构的悬浮体系,该悬浮体系形成的玻璃质导电薄膜表面电阻达到107Ω。三乙醇胺提高了SnO2:Sb前驱体胶粒间静电斥力,增大了胶粒分散程度,促进了SnO2:Sb立体网络结构的形成。采用TEM、Zeta电位和XPS分析方法,研究了三乙醇胺与SnO2:Sb前驱体颗粒的相互作用,解释了SnO2:Sb导电网络的形成过程。
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| 关 键 词: | SnO2 Sb 纳米颗粒 薄膜 形成机理 网络结构 |
Preparation of Thin Films and Formation Mechanism of Nano-SnO2 :Sb Conductive Networks |
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| LUO Mei-fang,CHEN Xue-hua,LI Chun-zhong,SHAO Wei.Preparation of Thin Films and Formation Mechanism of Nano-SnO2 :Sb Conductive Networks[J].Chemical World,2010,51(5). |
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| Authors: | LUO Mei-fang CHEN Xue-hua LI Chun-zhong SHAO Wei |
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| Abstract: | SnO_2:Sb nanoparticles were prepared by co-precipitating SnCl_4 and SbCl_3 with triethanolamine.The SnO_2:Sb nanoparticle dispersions with network structure were formed by ball milling,and the surface resistance of thin film coated on glass by this suspension was about 10~7 Ω,which was two orders of magnitude lower than that of non-organics.According to the analysis results of TEM,Zetasizer and XPS,the mechanism model of the interaction between triethanolamine and SnO_2:Sb precursor particles was hypothesized which well interpreted the formation of SnO_2:Sb network. |
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| Keywords: | SnO2 Sb |
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