聚合物无纺纺织材料在电磁干扰屏蔽应用中的进展

Jonathan Tersur Orasugh, Orebotse Joseph Botlhoko, Lesego Tabea Temane, Suprakas Sinha Ray
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引用次数: 0

摘要

多功能柔性导电材料在开发未来便携式电子系统(包括可穿戴电子设备、植入式设备等)方面引起了极大的兴趣。生产可在全天候情况下可靠使用并能提供高性能电磁干扰(EMI)屏蔽的可穿戴电子材料仍然具有挑战性。"电磁纺织材料 "指的就是这些可穿戴的电磁干扰屏蔽服。能够解决可穿戴/柔性电路工作环境和人体健康等系统所面临的电磁干扰问题的一种关键材料是导电聚合物非织造布 (NW) 纺织材料。在本综述中,我们主要关注作为有效 EMI 屏蔽材料的聚合物无纺布纺织品及其复合材料系列。本研究提供了基于 NW 的 EMI 屏蔽机制的基本原理、减轻电磁反射的机制以及 EMI 屏蔽 NW 材料的制造技术。此外,还为未来的研究人员提供了选择理想材料组合的标准,以有效缓解作为屏蔽/滤波器的 EMI 波。目前已有关于一般 EMI 屏蔽纺织品的综述文章,但没有一篇文章专门介绍基于 NW 纺织品的 EMI 屏蔽。同样,也没有综述性文章介绍在设计和制造基于 NW 的 EMI 屏蔽时采用的减轻电磁波反射的方法。此外,本文还介绍了在制造和/或应用基于 NW 的 EMI 屏蔽材料时遇到的挑战。本文首次提出了为何选择 NW 作为 EMI 屏蔽的主要制造结构这一问题。
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Progress in polymer nonwoven textile materials in electromagnetic interference shielding applications

Multifunctional flexible conductive materials have generated significant interest in developing future portable electronic systems, including wearable electronics, implantable devices, and many more. Producing wearable electronics materials that are dependable in all-weather situations and provide high-performance electromagnetic interference (EMI) shielding remains challenging. "electromagnetic textile materials" refers to these wearable EMI shielding garments. One key material that can address the EMI problem facing systems such as wearable/flexible circuit working environments and human health is conductive polymeric nonwoven (NW) textile materials. In this review, our focus is primarily limited to the polymeric NW textile and their composites family as effective EMI shielding materials. The study provides the fundamentals of NW-based EMI shielding mechanisms, mechanisms to mitigate EM reflection, and fabrication techniques of EMI shielding NW materials. Also, the standard for future researchers to select the ideal material combination for effectively mitigating EMI waves as shields/filters is presented. Review articles exist on EMI shielding textiles in general, but no single article is dedicated to NW textile-based EMI shields. Again, no review article exists presenting the approaches employed towards mitigating EM wave reflection in NW -based EMI shield design and fabrication. In addition, the challenges encountered with the fabrication and/or application of NW-based EMI shielding materials are presented in this paper. The question of why NW selection is the primary structure for EMI shield fabrication is presented herewith for the first time in this article.

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