ZnO纳米结构的电输运性质

Q4 Engineering

International Journal of Nanoparticles Pub Date : 2009-10-01 DOI:10.1504/IJNP.2009.028740

I. Uddin, M. Rafat, K. Tripathi, M. Husain, Shamshad A Khan, S. M. El-Hamidy, Z. Khan

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引用次数: 1

摘要

采用物理蒸汽冷凝法制备了氧化锌的纳米结构。这些纳米结构是在10 - 6 mbar的真空条件下，在400°C的温度下，在氧气和氩气的存在下，通过电阻加热锌粉制备的。透射电镜(TEM)图像表明，这些纳米结构具有一定的混合形态。它们既含有纳米棒，也含有纳米颗粒。这些纳米棒的典型直径在80纳米到150纳米之间，长度在几百纳米左右，而纳米颗粒的大小在50纳米到80纳米之间。研究了这些ZnO纳米结构的直流电导率在303 ~ 573 K温度范围内的温度依赖性，发现实验数据与热活化过程吻合良好。因此，我们认为热活化过程是这些纳米结构中运输的主要原因。

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Electrical transport properties of ZnO nanostructures

A physical vapour condensation method is used to synthesise the nanostructures of ZnO. These nanostructures are fabricated by resistive heating of Zn powder at a temperature of 400°C in the presence of oxygen and argon gases under a vacuum of order of 10−6 mbar. The transmission electron microscope (TEM) images suggest that these nanostructures have some mixed morphology. They contain nanorods as well as nanoparticles. The typical diameter of these nanorods is in the range of 80 nm to 150 nm and the length is of the order of several hundreds of nanometers, whereas the size of the nanoparticles varies from 50 nm to 80 nm. Temperature dependence of dc conductivity of these ZnO nanostructures is also studied in the temperature range (303 K to 573 K). It is found that the experimental data gives a good fit for thermally activated process. Therefore, it is suggested that thermally activated process is responsible for the transport in these nanostructures.

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来源期刊

International Journal of Nanoparticles Engineering-Mechanical Engineering

CiteScore

1.60

自引率

0.00%

发文量