Organic light emitting device

LCDs are based on subtractive color technology and are therefore not as bright as emissive displays such as CRTs and the newer organic light-emitting devices. 

Organic light-emitting devices (OLEDs) are one of several technologies competing for the market for next-generation emissive flat panel displays. It is the one most likely to triumph over field emission displays (basically CRT technology in miniature) and plasma display panels. 

Low-work-function cathode (Mg/Al) Electron-transport layer 

Light-emitting polymers [46,48] are a more recent development and may eventually prove superior to small-molecule OLED. Typical polymers are the green poly(para-phenylene vinylene) (PPV 53), the orange-red dialkoxy derivatives (54), and the blue polyfluorene (55) [48], 

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Wong, K.M.-C., Zhu,X., Hung, L.-L., Zhu, N., Yam, V.W.-W. and Kwok, H.-S. (2005) A novel class of phosphorescent gold(lll) alkynyl-based organic light-emitting devices with tunable colour. Chemical Communications, 2906—2908. 

Hebner, T. Wu, G Marcy, D. Lu, M. Sturm, J. 1998. Ink-jet printing of doped polymers for organic light emitting devices. Appl. Phys. Lett. 72 519-521. 

Kim, C. Forrest, S. R. 2003. Fabrication of organic light-emitting devices by low-pressure cold welding. Adv. Mater. 15 541-545. 

Organic Light-Emitting Devices and Their Applications for Flat-Panel Displays... 

Besides the commonly used sandwich structure, organic light-emitting devices could be fabricated in the metal-polymer-metal surface cell configuration, as illustrated in Figure 1.18 [61,159,160]. To make such devices, first, two symmetric electrodes are prepared onto a substrate with a gap in between. The metal can be deposited onto the substrate by thermal... 

G Grem, V Martin, F Meghdadi, C Paar, J Stampfl, J Sturm, S Tasch, and G Leising, Stable poly(para-phenylene)s and their application in organic light emitting devices, Synth. Met., 71 2193-2194, 1995. 

DA Pardo, GE Jabbour, and N Peyghambarian, Application of screen printing in the fabrication of organic light-emitting devices, Adv. Mater., 12 1249-1252, 2000. 

MA Baldo, ME Thomson, and SR Forrest, High-efficiency fluorescent organic light-emitting devices using a phosphorescent sensitizer, Nature, 403 750-753, 2000. 

For recent review on white-emitting OLEDs see B.W. D Andrade and S.R. Forrest, White organic light-emitting devices for solid-state lighting, Adv. Mater., 16 1585-1595, 2004. 

Phosphorescent materials for application to organic light emitting devices... 

Thin-film permeation-barrier technology for flexible organic light-emitting devices J.S. Lewis, M.S. Weaver IEEE Journal of Selected Topics in Quantum Electronics, 10 45-57... 

Organic Light Emitting Devices J. Shinar (Ed.) Springer, 384 pp. ISBN 0387953434... 

Transparent flexible plastic substrates for organic light-emitting devices Y. Hong, Z. He, N.S. Lennhoff, D.A. Banach, J. Kanicki Journal of Electronic Materials, 33 312-320... 

Degradation phenomena in small-molecule organic light-emitting devices H. Aziz, Z.D. Popovic Chemistry of Materials, 16 4522-4532... 

F. Nuesch, M. Carrara, M. Schaer, D.B. Romero, and L. Zuppiroli, The role of copper phtha-locyanine for charge injection into organic light-emitting devices, Chem. Phys. Lett., 347 311-317 (2001). 

C.O. Poon, F.L. Wong, S.W. Tong, R.Q. Zhang, C.S. Lee, and S.T. Lee, Improved performance and stability of organic light-emitting devices with silicon oxy-nitride buffer layer, Appl. Phys. Lett., 83 1038-1040 (2003). 

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