77‐4: A 2.78‐in 1058‐ppi Ultra‐High‐Resolution OLED Hybrid Display using Oxide Semiconductor/Oxide Conductor (OS/OC) Pixel (Transparent Pixel) achieving High Aperture Ratio | Zendy

Yokoyama Kohei | Zendy; Nagata Takaaki | Zendy; Sakuishi Tatsuya | Zendy; Nakano Masaru | Zendy; Miyairi Noriko | Zendy; Yamashita Akio | Zendy; Jimbo Yasuhiro | Zendy; Shishido Hideaki | Zendy; Ishitani Tetsuji | Zendy; Dobashi Masayoshi | Zendy; Nakazawa Yasutaka | Zendy; Nakada Masataka | Zendy; Koezuka Junichi | Zendy; Yamazaki Shunpei | Zendy

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77‐4: A 2.78‐in 1058‐ppi Ultra‐High‐Resolution OLED Hybrid Display using Oxide Semiconductor/Oxide Conductor (OS/OC) Pixel (Transparent Pixel) achieving High Aperture Ratio

Author(s) -

Yokoyama Kohei,

Nagata Takaaki,

Sakuishi Tatsuya,

Nakano Masaru,

Miyairi Noriko,

Yamashita Akio,

Jimbo Yasuhiro,

Shishido Hideaki,

Ishitani Tetsuji,

Dobashi Masayoshi,

Nakazawa Yasutaka,

Nakada Masataka,

Koezuka Junichi,

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.11842

Subject(s) - oled , pixel , materials science , optoelectronics , semiconductor , oxide , capacitor , diode , optics , electrical engineering , nanotechnology , voltage , physics , metallurgy , engineering , layer (electronics)

We prototyped a 2.78‐in 1058‐ppi OLED hybrid display. We employed an oxide semiconductor/oxide conductor (OS/OC) pixel (transparent pixel). In OS/OC pixels (transparent pixels), FETs, wirings, capacitors, and contact portions are transparent, achieving a high transmission area ratio of 66%.

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