Progress in conductive polymer antennas based on free-standing polypyrrole and PEDOT: PSS

机译：基于独立式聚吡咯和PEDOT的导电聚合物天线的研究进展：PSS

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In this paper, various realizations of microwave antennas based on free-standing conductive polymers including polypyrrole (PPy) and PEDOT:PSS (PEDOT) are reviewed in regard to two significant aspects: improvement of their efficiency and exploitation of their mechanical flexibility for antenna designs. On the one hand, with strategies such as simple chemical material treatments, deployment of non-resonant antenna structure and multilayer configurations, very high antenna efficiencies can be achieved. On the other hand, through the utilization of the conductive polymers and flexible, robust and low-loss substrates, reproducible antenna mechanical conformability can be achieved. All these facts suggest that conductive polymers are promising as conductor materials for flexible and wearable antenna designs.

机译：在本文中，从两个重要方面对基于独立导电聚合物（包括聚吡咯（PPy）和PEDOT：PSS（PEDOT））的微波天线的各种实现进行了综述：提高效率和利用天线设计的机械灵活性。一方面，通过诸如简单化学材料处理，部署非谐振天线结构和多层配置等策略，可以实现很高的天线效率。另一方面，通过利用导电聚合物和柔性，坚固且低损耗的基板，可以实现可再现的天线机械适应性。所有这些事实表明，导电聚合物有望成为用于柔性和可穿戴天线设计的导体材料。

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《International Symposium on Antenna Technology and Applied Electromagnetics》|2016年|1-4|共4页
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Shengjian Jammy Chen; Christophe Fumeaux; Pejman Talemi; Benjamin Chivers; Roderick Shepherd;
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wearable antennas; flexible structures; microwave antennas; multilayers; polymer films;

机译：可穿戴天线;柔性结构;微波天线;多层;聚合物薄膜;

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1. ELECTRICAL CHARACTERIZATION AND ELECTROGENIC CELL STIMULATION USING A CONDUCTIVE POLYMER COMPOSITE BASED ON PEDOT:PSS/PVA/EG ( CARACTERIZACIóN ELéCTRICA Y ESTIMULACIóN DE CéLULAS ELECTROGéNICAS USANDO EL POLíMERO CONDUCTOR PEDOT COMBINADO CON PEDOT:PSS/PVA/EG ) [J] . Jose J. Suárez-Vargas, Marbely Calderon, Werner Br?mer-Escamilla, Revista Latinoamericana de Metalurgia y Materiales . 2015,第1期

机译：使用基于PEDOT的导电聚合物复合材料进行电表征和电细胞刺激：PSS / PVA / EG。
2. Stretchable Conductive Polymers and Composites Based on PEDOT and PEDOT:PSS [J] . Kayser Laure V, Lipomi Darren J. Advanced Materials . 2019,第10期

机译：基于PEDOT和PEDOT：PSS的可拉伸导电聚合物和复合材料
3. Fabrication of conductive polymer/inorganic nanoparticles composite films: PEDOT:PSS with exfoliated tin selenide nanosheets for polymer-based thermoelectric devices [J] . Ju Hyun, Kim Jooheon Chemical engineering journal . 2016,第Null期

机译：导电聚合物/无机纳米粒子复合膜的制备：PEDOT：PSS与剥离的硒化锡纳米片，用于基于聚合物的热电器件
4. Progress in conductive polymer antennas based on free-standing polypyrrole and PEDOT: PSS [C] . Shengjian Jammy Chen, Christophe Fumeaux, Pejman Talemi, International Symposium on Antenna Technology and Applied Electromagnetics . 2016

机译：基于独立式聚吡咯和PEDOT的导电聚合物天线进展：PSS
5. Evaluation of biodegradable and electrically conductive polymers based on polylactide and polypyrrole. [D] . Wang, Zhaoxu. 2005

机译：基于聚丙交酯和聚吡咯的可生物降解的导电聚合物的评估。
6. Polymeric Flexible Immunosensor Based on Piezoresistive Micro-Cantilever with PEDOT/PSS Conductive Layer [O] . Rui Zhao, Ying Sun 2018

机译：基于具有PEDOT / PSS导电层的压阻微悬臂的聚合物柔性免疫传感器
7. Stretchable Conductive Polymers and Composites Based on PEDOT and PEDOT:PSS [O] . Laure V. Kayser, Darren J. Lipomi 2019

机译：基于PEDOT和PEDOT的可拉伸导电聚合物和复合材料：PSS

Progress in conductive polymer antennas based on free-standing polypyrrole and PEDOT: PSS

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