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Electrical conductivity and transport properties of gold decorated amorphous carbon nanotubes/Epoxy Composites

机译：金饰非晶碳纳米管/环氧树脂复合材料的电导率和传输性能

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In this work, chemically synthesized, carboxyl groups functionalized, gold particles hybrid amorphous carbon nanotubes (a-CNT) were characterized. Transmission electron microscopy (TEM) shows that Au/a-CNT hybrid possesses smaller diameter of 10.2 nm than as-synthesized a-CNTs (40 nm). Moreover, even, well-ordered fringes formed on Au/a-CNT hybrid justified successful attachment of Au particles on a-CNT. Impedance plots shows lower resistivity on high Au content's Au/a-CNT hybrid. At the same time, Au/a-CNT hybrids possesses low electrical transference numbers as compared with as-synthesized a-CNTs. Au nanoparticles contribute conducting electrons to Au/a-CNT hybrids and tend to overcome the dominating ionic conduction of a-CNT as Au content exceeds 30 wt.

机译：在这项工作中，表征了化学合成的，羧基官能化的金颗粒杂化无定形碳纳米管（a-CNT）。透射电子显微镜（TEM）显示，Au / a-CNT杂化物的直径比刚合成的a-CNT（40 nm）的直径小10.2 nm。而且，在Au / a-CNT杂化物上形成的均匀，有序的条纹也证明了Au颗粒在a-CNT上的成功附着。阻抗图显示，在高Au含量的Au / a-CNT杂化物中，电阻率较低。同时，与合成后的a-CNT相比，Au / a-CNT杂化物具有较低的电转移数。 Au纳米粒子有助于向Au / a-CNT杂化体提供导电电子，并且当Au含量超过30 wt％时，往往会克服a-CNT的主要离子传导。

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Dian L.Y.; Johan M.R.;
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Electrical conductivity and transport properties of gold decorated amorphous carbon nanotubes/Epoxy Composites

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