Bio-based substrate for flexible electronics - application to a 2.45 GHz wearable patch antenna

Abdelghafour Sid , Pierre-Yves Cresson , Nicolas Joly , Flavie Braud , Tuami Lasri
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Abstract

In this paper, a bio-based and biocompatible polymer, Cellulose Laurate (CL), is proposed for flexible radio-frequency (RF) electronics. The synthesis of CL films together with their characterizations (chemical, thermal, mechanical and dielectric) are presented. The results obtained allow considering this material for RF flexible applications as a possible alternative to petrosourced substrates. Therefore, CL has been used to fabricate a flexible patch antenna that operates in an industrial, scientific and medical (ISM) frequency band. The central frequency selected is 2.45 GHz. The antenna fabrication process is based on the combination of laser structuring and the use of copper adhesive tape. Measurements of the antenna reflection coefficient and radiation patterns show that CL is a good candidate as a RF substrate. Furthermore, it is demonstrated that the antenna performance is only slightly impacted under bending conditions.

Abstract Image

柔性电子器件的生物基衬底——2.45 GHz可穿戴贴片天线的应用
本文提出了一种生物基和生物相容性聚合物,月桂酸纤维素(CL),用于柔性射频(RF)电子器件。介绍了CL薄膜的合成及其化学、热学、力学和介电性能。所获得的结果允许考虑将这种材料作为石油基板的可能替代品用于射频柔性应用。因此,CL已被用于制造在工业、科学和医疗(ISM)频段工作的柔性贴片天线。中心频率选择为2.45 GHz。天线的制作工艺是基于激光结构和使用铜胶带相结合。天线反射系数和辐射方向图的测量表明,CL是一个很好的候选射频衬底。此外,在弯曲条件下,天线的性能只受到轻微的影响。
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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