室温下具有化学电阻响应的高导电性ZnO/CNT纳米复合材料的合成

IF 1.8 3区化学 Q3 CHEMISTRY, INORGANIC & NUCLEAR

Russian Journal of Inorganic Chemistry Pub Date : 2024-12-19 DOI:10.1134/S0036023624602782

A. S. Mokrushin, S. A. Dmitrieva, I. A. Nagornov, N. P. Simonenko, A. M. Vorobei, A. A. Averin, E. P. Simonenko

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引用次数: 0

摘要

采用溶剂热合成方法制备了碳纳米管含量为0.01 ~ 10 wt %的ZnO/CNT纳米复合材料。利用DSC/TGA研究了复合材料在加热至850℃时的热行为。用x射线粉末衍射和拉曼光谱研究了其相组成；确定了六方纤锌矿相的形成。SEM数据显示，氧化锌纳米颗粒在碳纳米管表面存在。研究了ZnO/CNT纳米复合材料电阻的温度依赖性。结果表明，根据碳纳米管的含量，可以观察到半导体或金属类型的电导率。在室温下研究了对各种气体的化学电阻响应；碳纳米管含量最低（0.01 wt %）的样品显示出最佳灵敏度。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Synthesis of High Electroconductive ZnO/CNT Nanocomposites with Chemoresistive Response at Room Temperature

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Synthesis of High Electroconductive ZnO/CNT Nanocomposites with Chemoresistive Response at Room Temperature

ZnO/CNT nanocomposites with CNT content from 0.01 to 10 wt % have been prepared using solvothermal synthesis. The thermal behavior of the obtained composites has been studied at heating up to 850°C using DSC/TGA. The phase composition has been studied by X-ray powder diffraction and Raman spectroscopy; the formation of hexagonal wurtzite phase has been established. According to SEM data, zinc oxide nanoparticles are localized on the CNT surface. The temperature dependence of electrical resistance of ZnO/CNT nanocomposites has been studied. It is shown that semiconductor or metallic type of conductivity is observed depending on the CNT content. The chemoresistive responses to a wide range of gases have been studied at room temperature; the best sensitivity is shown by the sample with the lowest CNT content (0.01 wt %).

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来源期刊

Russian Journal of Inorganic Chemistry 化学-无机化学与核化学

CiteScore

3.10

自引率

38.10%

发文量

237

审稿时长

3 months

期刊介绍： Russian Journal of Inorganic Chemistry is a monthly periodical that covers the following topics of research: the synthesis and properties of inorganic compounds, coordination compounds, physicochemical analysis of inorganic systems, theoretical inorganic chemistry, physical methods of investigation, chemistry of solutions, inorganic materials, and nanomaterials.