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首页> 外文期刊>Advanced Functional Materials >'Regioselective Deposition' Method to Pattern Silver Electrodes Facilely and Efficiently with High Resolution: Towards All-Solution-Processed, High-Performance, Bottom-Contacted, Flexible, Polymer-Based Electronics
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'Regioselective Deposition' Method to Pattern Silver Electrodes Facilely and Efficiently with High Resolution: Towards All-Solution-Processed, High-Performance, Bottom-Contacted, Flexible, Polymer-Based Electronics

机译:“区域选择性沉积”方法可快速,高效地对银电极进行构图,以实现全溶液处理,高性能,底部接触,基于聚合物的柔性电子产品

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摘要

"Regioselectivity deposition" method is developed to pattern silver electrodes facilely and efficiently by solution-process with high resolution (down to 2 μm) on different substrates in A4 paper size. With the help of this method, large-area, flexible, high-performance polymer field-effect transistors based on the silver electrodes and polyimide insulator are fabricated with bottom-contact configuration by all-solution processes. The polymer devices exhibit high performance with average field-effect mobility over 1.0 cm~2 V~(-1) s~(-1) (the highest mobility up to 1.5 cm~2 V~(-1) s~(-1)) and excellent environmental stability and flexibility, indicating the cost effectiveness of this method for practical applications in organic electronics.
机译:开发了“区域选择性沉积”方法,该方法通过在A4纸张尺寸的不同基材上以高分辨率(低至2μm)进行固溶处理,快速而高效地对银电极进行构图。借助于这种方法,通过全溶液工艺以底部接触结构制造了基于银电极和聚酰亚胺绝缘体的大面积,柔性,高性能聚合物场效应晶体管。聚合物器件表现出高性能,其平均场效应迁移率超过1.0 cm〜2 V〜(-1)s〜(-1)(最高迁移率高达1.5 cm〜2 V〜(-1)s〜(-1) ))以及出色的环境稳定性和灵活性,表明该方法在有机电子产品的实际应用中具有成本效益。

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  • 来源
    《Advanced Functional Materials》 |2014年第24期|3783-3789|共7页
  • 作者

    Deyang Ji; Lang Jiang; Yunlong Guo; Huanli Dong; Jianpu Wang; Huajie Chen; Qing Meng; Xiaolong Fu; Guofeng Tian; Dezhen Wu; Gui Yu; Yunqi Liu; Wenping Hu;

  • 作者单位

    Beijing National Laboratory for Molecular Sciences Key Laboratory of Organic Solids Institute of Chemistry Chinese Academy of Sciences Beijing 100190, China,University of Chinese Academy of Sciences Beijing 100039, China;

    Beijing National Laboratory for Molecular Sciences Key Laboratory of Organic Solids Institute of Chemistry Chinese Academy of Sciences Beijing 100190, China,Cavendish Laboratory Cambridge University JJ Thomson Avenue Cambridge, CB3 0HE, UK;

    Beijing National Laboratory for Molecular Sciences Key Laboratory of Organic Solids Institute of Chemistry Chinese Academy of Sciences Beijing 100190, China;

    Beijing National Laboratory for Molecular Sciences Key Laboratory of Organic Solids Institute of Chemistry Chinese Academy of Sciences Beijing 100190, China,Collaborative Innovation Center of Chemical Science and Engineering Tianjin 300072, China;

    Cavendish Laboratory Cambridge University JJ Thomson Avenue Cambridge, CB3 0HE, UK;

    Beijing National Laboratory for Molecular Sciences Key Laboratory of Organic Solids Institute of Chemistry Chinese Academy of Sciences Beijing 100190, China;

    Beijing National Laboratory for Molecular Sciences Key Laboratory of Organic Solids Institute of Chemistry Chinese Academy of Sciences Beijing 100190, China;

    Beijing National Laboratory for Molecular Sciences Key Laboratory of Organic Solids Institute of Chemistry Chinese Academy of Sciences Beijing 100190, China,University of Chinese Academy of Sciences Beijing 100039, China;

    Beijing University of Chemical Technology Beijing 100029, China;

    Collaborative Innovation Center of Chemical Science and Engineering Tianjin 300072, China,Beijing University of Chemical Technology Beijing 100029, China;

    Beijing National Laboratory for Molecular Sciences Key Laboratory of Organic Solids Institute of Chemistry Chinese Academy of Sciences Beijing 100190, China;

    Beijing National Laboratory for Molecular Sciences Key Laboratory of Organic Solids Institute of Chemistry Chinese Academy of Sciences Beijing 100190, China;

    Beijing National Laboratory for Molecular Sciences Key Laboratory of Organic Solids Institute of Chemistry Chinese Academy of Sciences Beijing 100190, China;

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