Electrical Characterization and Gate Insulation of UV Curable Liquid Crystal Polymer Film

  • Shimizu Atsuyuki
    Graduate school of Engineering, Tokyo University of Agriculture and Technology
  • Kanbe Keita
    Graduate school of Engineering, Tokyo University of Agriculture and Technology
  • Iimura Yasufumi
    Graduate school of Engineering, Tokyo University of Agriculture and Technology

Bibliographic Information

Other Title
  • 光重合型液晶性高分子膜のゲート絶縁膜への応用とその電気的評価の研究(発光型/非発光型ディスプレイ合同研究会)
  • 光重合型液晶性高分子膜のゲート絶縁膜への応用とその電気的評価の研究
  • ヒカリ ジュウゴウガタ エキショウセイ コウブンシ マク ノ ゲート ゼツエン マク エ ノ オウヨウ ト ソノ デンキテキ ヒョウカ ノ ケンキュウ

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Abstract

Today, an organic thin film transistor (O-TFT) is known to become a key element for realizing high-performance flexible display devices due to its low process temperature, which is essential for using flexible plastic substrates. In this study, we have directed our attention to a gate insulator, which are one of indispensable elements for O-TFTs. Here we choose a UV-curable liquid crystalline polymer as a gate insulating material, and we study its conducting properties with observing deep carrier trap levels (DTL) of the film by the thermal stimulated current (TSC) method.

Journal

  • ITE Technical Report

    ITE Technical Report 35.4 (0), 95-98, 2011

    The Institute of Image Information and Television Engineers

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