2012
DOI: 10.1002/j.2168-0159.2012.tb05763.x
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20.1: Invited Paper: Robust TFT Backplane for Flexible AMOLED

Abstract: We report the fabrication and flexibility of the TFTs based on poly-Si and a-IGZO on polyimide (PI). The performances of the TFTs do not degrade upon 10,000 times rolling with 2 mm radius for a-IGZO and 4 mm for poly-Si TFTs. It is found that there is no electrostatic damage for the TFT backplane on PI with a conducting backbone.

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Cited by 18 publications
(12 citation statements)
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“…Bond/Debond: Plastic Film Lamination and Mechanical Peeling [15][16]; iv. Coat/Debond: Plastic Material Solution Coating and Mechanical Peeling [17][18]; were investigated by display scientists or research groups for fabricating flexible displays. Moreover, flexible electro-phoretic displays and flexible organic light emitting displays use for wearable watch were demonstrated [19][20].…”
Section: Objective and Backgroundmentioning
confidence: 99%
“…Bond/Debond: Plastic Film Lamination and Mechanical Peeling [15][16]; iv. Coat/Debond: Plastic Material Solution Coating and Mechanical Peeling [17][18]; were investigated by display scientists or research groups for fabricating flexible displays. Moreover, flexible electro-phoretic displays and flexible organic light emitting displays use for wearable watch were demonstrated [19][20].…”
Section: Objective and Backgroundmentioning
confidence: 99%
“…During fabrication process, carrier glass is used for mechanical stability. After completion of fabrication, the samples are detached from the glass to yield free-standing flexible TFTs and circuits [8]. To ease the detachment process, a solution-processed carbonnanotube (CNT)/graphene-oxide (GO) release layer is spin-coated on top of the carrier glass before a 15 μm-thick PI is coated [9].…”
Section: Device Fabrication and Characterizationmentioning
confidence: 99%
“…Research into next-generation displays includes electrophoretic E-paper capable of displaying color images 82)83) . TFTs 84) and OLEDs 85) with superior flexibility and low-temperature manufacturing technologies have been reported 86) . In addition, a diffractive optical device that increases the viewing-zone angle of stereoscopic displays has been developed 87) .…”
Section: Displaysmentioning
confidence: 99%