Characterization of Organic Conductive Materials as an Ecological Solution for RF Applications

Bruna Cruz, P. Eschlwech, Michael Hani, Erwin M. Biebl
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引用次数: 1

Abstract

The use of nonmetallic conductor materials in RF applications has recently become a highlighted issue when it comes to sustainability in the electronics industry, mainly because of the waste problems associated with heavy metals and the necessity of reducing and managing them. The replacement of metal in functional applications such as in electronics is therefore very important. Among these new materials, organic conductors are of great interest since they are, in general, biocompatible and biodegradable, allowing for the disposal of electronic devices, which reduces the negative environment impact caused by electronics waste. In this work, PEDOT:PSS and Carbon are investigated. Since these materials are available as conducting pastes or inks, the production of conducting patterns by printing techniques such as screen printing is possible, which can make the process less harmful to the environment, since it permits the use of organic substrates such as paper. In order to investigate the feasibility of these materials for RF signal transmission, screen printed PEDOT:PSS and Carbon transmission lines have been designed, fabricated and characterized. Results regarding conductivity, thickness, electric permittivity and S21 parameter are presented and will serve as a foundation for the development of further reaching applications utilizing organic materials.
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表征有机导电材料作为射频应用的生态解决方案
当涉及到电子工业的可持续性时,非金属导体材料在射频应用中的使用最近已成为一个突出的问题,主要是因为与重金属相关的废物问题以及减少和管理它们的必要性。因此,在电子等功能应用中替代金属是非常重要的。在这些新材料中,有机导体引起了极大的兴趣,因为它们通常具有生物相容性和可生物降解性,允许处理电子设备,从而减少了电子废物对环境的负面影响。本研究对PEDOT:PSS和Carbon进行了研究。由于这些材料可作为导电浆料或油墨,因此可以通过丝网印刷等印刷技术生产导电图案,这可以使该过程对环境的危害较小,因为它允许使用有机基材,如纸。为了研究这些材料用于射频信号传输的可行性,我们设计、制作并表征了网印PEDOT:PSS和Carbon传输线。给出了有关导电率、厚度、介电常数和S21参数的结果,并将为进一步利用有机材料的应用开发奠定基础。
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