P‐219L:  Late‐News Poster : Flexible Electrophoretic Display with Inkjet Printed Active Matrix Backplane | Zendy

Moriya S. | Zendy; Miyamoto T. | Zendy; Saeki T. | Zendy; Kawase T. | Zendy; Inoue S. | Zendy; Shimoda T. | Zendy; Yamamoto H. | Zendy; Kushino M. | Zendy; Sasaki Y. | Zendy; Kuwamoto T. | Zendy

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P‐219L: Late‐News Poster : Flexible Electrophoretic Display with Inkjet Printed Active Matrix Backplane

Author(s) -

Moriya S.,

Miyamoto T.,

Saeki T.,

Kawase T.,

Inoue S.,

Shimoda T.,

Yamamoto H.,

Kushino M.,

Sasaki Y.,

Kuwamoto T.

Publication year - 2006

Publication title -

sid symposium digest of technical papers

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.351

H-Index - 44

eISSN - 2168-0159

pISSN - 0097-966X

DOI - 10.1889/1.2433477

Subject(s) - backplane , photolithography , flexible display , materials science , active matrix , passivation , layer (electronics) , optoelectronics , matrix (chemical analysis) , electrophoresis , nanotechnology , thin film transistor , computer science , computer hardware , chemistry , composite material , chromatography

A 2.4‐inch, 50‐ppi organic TFT‐driven active‐matrix backplane was developed and fabricated by using an effective combination of inkjet printing and vacuum processes. This novel process, which consists of a single photolithography step and two inkjet printing steps, is particularly compatible with flexible plastic substrates. An electrophoretic display device created using this process operated stably in air, even without a step for forming a passivation layer.

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