Fabrication of Polymer Magnetic Nanocomposites Containing Carbon Nanoparticles Doped with Cobalt Nanoclusters and Study Their Conductivity, Self-Healing and Adhesion Properties

World Journal of Condensed Matter Physics Pub Date : 2020-06-23 DOI:10.4236/wjcmp.2020.103008

G. Маmniashvili, D. Gventsadze, L. Rukhadze, L. Maisuradze

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Abstract

The technology of fabrication of polymer nanocomposites on basis of carbon nanoparticles doped with cobalt clusters, synthesized by original Chemical Vapore Deposition (CVD) technology developed by authors, was elaborated. Carbon shells provide both the protection of ferromagnetic impurities from aggressive environment and new unique properties to the hybride nanostructures. The self-assembling of magnetic clusters coated by carbon shells presents just such example which could be used in the contemporary materials, for example, in strong magnets, analytic instruments (nuclear magnetic resonance tomographs) and nanosensors. Their good conductivity, self-healing and adhesion properties were demonstrated by applying the combined action of temperature, pressure, steady and alternating magnetic fields to stimulate diffusion of magnetic nanoparticles in direction to defect sites. Due to these properties fabricated magnetic polymer nanocomposites could have perspective for potential.

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掺杂钴纳米团簇的碳纳米聚合物磁性纳米复合材料的制备及其导电性、自修复性和粘附性研究

阐述了利用作者独创的化学气相沉积(CVD)技术制备掺杂钴团簇的纳米碳聚合物复合材料的工艺。碳壳既能保护铁磁性杂质不受环境侵蚀，又能使杂化纳米结构具有新的独特性能。涂有碳壳的磁性团簇的自组装就是这样一个例子，它可以应用于当代材料，例如强磁铁、分析仪器(核磁共振断层扫描)和纳米传感器。通过施加温度、压力、稳态和交变磁场的联合作用，刺激磁性纳米颗粒向缺陷部位方向扩散，证明了磁性纳米颗粒具有良好的导电性、自愈性和粘附性。由于这些特性，制备的磁性聚合物纳米复合材料具有广阔的应用前景。

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World Journal of Condensed Matter Physics

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