Integration of Organic Electrochemical and Field‐Effect Transistors for Ultraflexible, High Temporal Resolution Electrophysiology Arrays | Zendy

Lee Wonryung | Zendy; Kim Dongmin | Zendy; Rivnay Jonathan | Zendy; Matsuhisa Naoji | Zendy; Lonjaret Thomas | Zendy; Yokota Tomoyuki | Zendy; Yawo Hiromu | Zendy; Sekino Masaki | Zendy; Malliaras George G. | Zendy; Someya Takao | Zendy

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Integration of Organic Electrochemical and Field‐Effect Transistors for Ultraflexible, High Temporal Resolution Electrophysiology Arrays

Author(s) -

Lee Wonryung,

Kim Dongmin,

Rivnay Jonathan,

Matsuhisa Naoji,

Lonjaret Thomas,

Yokota Tomoyuki,

Yawo Hiromu,

Sekino Masaki,

Malliaras George G.,

Someya Takao

Publication year - 2016

Publication title -

advanced materials

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 10.707

H-Index - 527

eISSN - 1521-4095

pISSN - 0935-9648

DOI - 10.1002/adma.201602237

Subject(s) - materials science , electrophysiology , transistor , field effect transistor , parylene , nanotechnology , optoelectronics , local field potential , temporal resolution , voltage , electrical engineering , optics , neuroscience , polymer , biology , physics , composite material , engineering

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.

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