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    Integration of Organic Electrochemical and Field-Effect Transistors for Ultraflexible, High Temporal Resolution Electrophysiology Arrays  
    Wonryung Lee(The University of Tokyo)
    United States | Advanced Materials
    2016-09-22 | 바로가기
    Transistors
    Cited by 75

    ■  View full text

    Advanced Materials

    First published: 22 September 2016

    https://doi.org/10.1002/adma.201602237

     

     

    ■  Researchers

    Wonryung Lee, Dongmin Kim, Jonathan Rivnay, Naoji Matsuhisa, Thomas Lonjaret, Tomoyuki Yokota, Hiromu Yawo, Masaki Sekino, George G. Malliaras, and Takao Someya*

     

    W. Lee, Dr. D. Kim, N. Matsuhisa, Dr. T. Yokota,  Prof. M. Sekino, Prof. T. Someya

    Department of Electrical EngineeringThe University of Tokyo

    Dr. J. Rivnay, T. Lonjaret, Prof. G. G. Malliaras

    Ecole Nationale Supérieure des Mines

    T. Lonjaret

    MicroVitae TechnologiesHôtel TechnologiqueEuroparc Sainte Victoire Bat 6 Route de Valbrillant

    Prof. H. Yawo

    Department of Developmental Biology and NeuroscienceGraduate School of Life SciencesTohoku University

     

    ■  Abstract

    Integration of organic electrochemical transistors and organic field‐effect transistors is successfully realized on a 600 nm thick parylene film toward an electrophysiology array. A single cell of an integrated device and a 2 × 2 electrophysiology array succeed in detecting electromyogram with local stimulation of the motor nerve bundle of a transgenic rat by a laser pulse.

     

     

     

     

    * 관련 자료 

    [신진연구자 인터뷰] 유기전자소자를 활용한 극박막 생체전기 & 생체화학 센싱 플랫폼 개발

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