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Color OLEDs

Shibusawa, M. Kobayashi, M. Hanari, J. Sunohara, K. Ibaraki, N. 2003. A 17-inch WXGA full-color OLED display using the polymer ink jet technology. IEICE Trans. Electron., E86-C(ll) 2269-2274. [Pg.404]

Each of the techniques described above has unique strengths and weaknesses, and the optimum device structure for commercial full-color displays will also be heavily influenced by the ease with which it can be mass-produced. Currently full-color OLED displays have been manufactured commercially by using two of the above described techniques only, i.e., (a) side-by-side pixels deposited by high-precision shadow masking and (b) using white OLEDs and color absorption filters. [Pg.553]

SA VanSlyke, A Pignato, D Freeman, N Redden, D Waters, H Kikuchi, T Negishi, H Kanno, Y Nishio, and M Nakai, Linear Source Deposition of Organic Layers for Full-Color OLED, Proceedings of the Society for Information Display, Digest of Technical Papers, Vol. 33(Suppl. [Pg.559]

A Yoshida, S Fujimura, T Miyake, T Yoshizawa, H Ochi, A Sugimoto, H Kubota, T Miyadera, S Ishizuka, M Tsuchida, and H Nakada, 3-Inch Full-Color OLED Display Using a Plastic Substrate, Proceedings of the 2003 Society for Information Displays International Symposium Digest of Technical Papers, Vol. 34(Book 2), Baltimore, 2003, pp. 856— 859. [Pg.564]

FIGURE 10.7 Power consumption simulation for a 2.2-in. full-color OLED display using Universal Display s phosphorescent OLEDs, small-molecule fluorescent devices, and polymer OLEDs along with a comparison of the power consumed by an active-matrix liquid crystal display backlight. R G B= 3 6 1, 50% polarizer efficiency, and 30% of pixels lit. (From Mahon, J.K., Adv. Imaging, June, 28, 2003. With permission.)... [Pg.630]

Sugimoto, H. Kubota, T. Miyadera, S. Ishizuka, M. Tsuchida, H. Nakada, 211 Invited Paper 3-inch Full-color OLED Display using a Plastic Substrate, SID Symposium Digest of Technical Papers 2003, 34, 856-859. [Pg.393]

Figure 13-19. Schemes to achieve red, green, and blue pixelation for full color OLED display panels. Figure 13-19. Schemes to achieve red, green, and blue pixelation for full color OLED display panels.
The OLED structure, as an array of small-size pixels, presents an opportunity to fabricate multiple sensors in this compact design. Any number of pixels is individually addressable and can be associated with a different sensor film. Single- or multi-color OLEDs can be used for generating such sensors. [Pg.64]

Yamada, T., Tsubata, Y., Sekine, C., and Ohnishi, T. 2008. Recent progress in light-emitting polymers for full color OLEDs. SID Inti. Symp. Dig. Tech. Papers 39 404. [Pg.502]

Helber, M., Alessi, R, Burburry M. et al. 2007. Color filter formulations for full color OLED displays High color gamut plus improved efficiency and lifetime. SID Inti. Symp. Dig. Tech. Papers 38 1022. [Pg.503]

Mameno, K., Suzuki, K., Ichikawa, S. et al. 2002. Active matrix full color OLED displays with high efficiency white OLEDS and ON-chip color filters. Abstracts of the 8th lUMRS International Conference on Electronic Materials G-06, June 10-14, 2002, Xian, China. [Pg.503]


See other pages where Color OLEDs is mentioned: [Pg.30]    [Pg.35]    [Pg.365]    [Pg.502]    [Pg.574]    [Pg.574]    [Pg.629]    [Pg.222]    [Pg.222]    [Pg.223]    [Pg.441]    [Pg.314]    [Pg.241]    [Pg.40]    [Pg.243]    [Pg.447]    [Pg.86]    [Pg.137]    [Pg.62]    [Pg.64]   
See also in sourсe #XX -- [ Pg.453 ]




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