Engineering lossy artificial dielectrics using single-walled carbon nanotubes

B. Glover, K. Whites
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引用次数: 2

Abstract

This paper measured the complex permittivity of 0.1wt.% (0.32 vol.%) SWNT-loaded petroleum jelly from 0.9-6 GHz. The imaginary part of the effective permittivity was increased dramatically while the real part was comparatively insensitive. Furthermore, calculations show that easily realized tri-component artificial dielectrics can compensate for this small increase in the real permittivity. These results are representative of many low-permittivity, low-loss, and moldable dielectrics where carbon nanotubes can be well distributed throughout the volume. Finally, a design procedure for a tri-component artificial dielectric was given which gives significant flexibility and ease in manufacturing broadband, lossy dielectric materials beginning with a carbon nanotube loaded dielectric.
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使用单壁碳纳米管的工程损耗人工电介质
本文测量了0.1wt的复介电常数。% (0.32 vol.%)负载swnt的凡士林在0.9-6 GHz。有效介电常数的虚部显著增大,而实部相对不敏感。此外,计算表明,易于实现的三分量人工介电体可以补偿实际介电常数的微小增加。这些结果代表了许多低介电常数、低损耗和可成型的介质,其中碳纳米管可以很好地分布在整个体积中。最后,给出了一种三组分人工介电材料的设计方法,该方法从碳纳米管负载介电材料开始,为制造宽带、有损介电材料提供了极大的灵活性和便捷性。
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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