Article citationsMore>>
Katsuhara, M., Yagi, I., Yumoto, A., Noda, M., Hirai, N., Yasuda, R., Moriwaki, T., Ushikura, S., Imaoka, A., Urabe, T. and Nomoto, K. (2010) A Flexible OLED Display with an OTFT Backplane Made by Scalable Manufacturing Process. Journal of the Society for Information Display, 18, 399-404.
http://dx.doi.org/10.1889/JSID18.6.399
has been cited by the following article:
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TITLE:
Development of a High-PerformanceFlexible Substrate for Flexible Electronics:Joining TAC Films and an Ultra-Thin Glassby Using TEOS-DAC Synthesized by the Sol-Gel Method
AUTHORS:
Tomoji Ohishi, Hiroaki Kawada, Tsutomu Yoshida, Takeshi Ohwada
KEYWORDS:
Flexible Electronics, Flexible Substrate, Ultra Thin Glass, Triacethyl Cellulose Film,
JOURNAL NAME:
Materials Sciences and Applications,
Vol.6 No.12,
December
15,
2015
ABSTRACT: A new flexible substrate for flexible electronics has been developed. The developed substrate consists of an ultra thin glass and TAC (triacethyl cellulose) film. An ultra thin glass and TAC film were joined with TEOS-DAC (TEOS: tetraethyl orthosilicate, DAC: diacethy cellulose) adhesive resin synthesized by sol-gel method by means of thermo-compression bonding. This substrate has high transparency in visible-light region (90%), high flexibility (torsion strength and bending strength) and high gas barrier characteristics due to an ultra thin glass. The newly-developed substrate is superior to the substrates fabricated with commercially available adhesive resin in the same way in characteristics of heat resistance, transparency and flexibility.
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