Overview of nanodielectrics: Insulating materials of the future

2007 Electrical Insulation Conference and Electrical Manufacturing Expo Pub Date : 2007-10-01 DOI:10.1109/EEIC.2007.4562626

J. K. Nelson

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引用次数: 87

Abstract

Several research groups worldwide have now been able to document some significant improvements that can be made in the electrical, and other, properties of polymer composites through the incorporation of nanoparticulates. Although it is now becoming clear that the mechanisms responsible for these changes are by no means universal, some of the benefits are substantial and rely on the large interface areas which are inherent in the introduction of materials of nanometric dimensions. By examining a variety of nanomaterials, this contribution seeks to review the property changes that can be brought about and examines the possibilities for commercial applications. This involves not only the electrical properties, but the implications for the attendant mechanical characteristics and the polymer processing necessary for utilization of this emerging breed of dielectric material. In this context, the functionalization of the particulate surfaces to provide preferential coupling to the host polymer will be explored since, by this means, a degree of preferred assembly can be accommodated. Through experimental examples, the use of this technique to tailor the properties of nanodielectrics is illustrated.

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纳米电介质概述:未来的绝缘材料

世界各地的几个研究小组现在已经能够通过纳米颗粒的掺入，在聚合物复合材料的电学和其他性能方面取得一些重大的改进。虽然现在越来越清楚的是，导致这些变化的机制绝不是普遍的，但一些好处是实质性的，并且依赖于引入纳米尺寸材料所固有的大界面区域。通过对各种纳米材料的研究，这篇文章试图回顾纳米材料可能带来的性质变化，并研究其商业应用的可能性。这不仅涉及电性能，而且涉及随之而来的机械特性和利用这种新兴的介电材料所需的聚合物加工。在这种情况下，将探索颗粒表面的功能化，以提供与宿主聚合物的优先偶联，因为通过这种方式，可以容纳一定程度的优选组装。通过实验实例，说明了该技术在纳米电介质特性调整中的应用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2007 Electrical Insulation Conference and Electrical Manufacturing Expo

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