24‐1:  Invited Paper : Flexible OLED Display Using C‐Axis‐Aligned‐Crystal/Cloud‐Aligned Composite Oxide Semiconductor Technology and Laser Separation Technology | Zendy

Koezuka Junichi | Zendy; Idojiri Satoru | Zendy; Shima Yukinori | Zendy; Nakada Masataka | Zendy; Okazaki Kenichi | Zendy; Aoyama Tomoya | Zendy; Yamazaki Shunpei | Zendy

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24‐1: Invited Paper : Flexible OLED Display Using C‐Axis‐Aligned‐Crystal/Cloud‐Aligned Composite Oxide Semiconductor Technology and Laser Separation Technology

Author(s) -

Koezuka Junichi,

Idojiri Satoru,

Shima Yukinori,

Nakada Masataka,

Okazaki Kenichi,

Aoyama Tomoya,

Yamazaki Shunpei

Publication year - 2017

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 - 10.1002/sdtp.11641

Subject(s) - materials science , transistor , optoelectronics , diode , semiconductor , laser , composite number , thin film transistor , oxide , cloud computing , laser diode , nanotechnology , optics , electrical engineering , computer science , engineering , layer (electronics) , composite material , metallurgy , physics , voltage , operating system

A top‐gate self‐aligned transistor with excellent characteristics was developed using a cloud‐aligned composite oxide semiconductor (CAC‐OS). A 1058‐ppi 8K4K foldable organic light‐emitting diode panel was fabricated using the transistor and employing a novel linear laser separation technology. These technologies enable a shift of production lines from low‐temperature polysilicon to CAC‐OS.

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