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Organic light-emitting diodes anode

W.H. Kim, A.J. Makinen, N. Nikolov, R. Shashidhar, H. Kim, and Z.H. Kafafi, Molecular organic light-emitting diodes using highly conducting polymers as anodes, Appl. Phys. Lett., 80 3844-3846 (2002). [Pg.396]

L.S. Hung, L.R. Zheng, and M.G. Mason, Anode modification in organic light-emitting diodes by low-frequency plasma polymerization of CHF3, Appl. Phys. Lett., 78 673-675 (2001). [Pg.396]

J.S. Kim, R.H. Friend, and F. Cacialli, Improved operational stability of polyfluorene-based organic light-emitting diodes with plasma-treated indium-tin-oxide anodes, Appl. Phys. Lett., 74 3084-3086, 1999. [Pg.523]

Figure 4.3 Schematic representation of a simple monolayer organic light-emitting diode (OLED) incorporating an electroluminescent material between a transparent anode and a cathode. Figure 4.3 Schematic representation of a simple monolayer organic light-emitting diode (OLED) incorporating an electroluminescent material between a transparent anode and a cathode.
Scott JC, Carter SA, Karg S, Angelopoulos M (1997) Polymeric anodes for organic light-emitting diodes. Synth Met 85 1197... [Pg.72]

Organic Light-Emitting Diodes (OLED) and Polymer Light-Emitting Diodes (PLED) based on the mechanism foreseen by Marcus have been realized in practice. PLEDs are successively formed from an Al, Mg or Ca cathode, an organic conductive polymer and an ITO (Indium, Tin, Oxide) anode, as schematically illustrated in Fig. 36.31. [Pg.1040]

Chan, I. M. and Hong, R C. N. 2003. Plasma treatment of indium tin oxide anodes in carbon tetrafluorinde (CF4)/oxygen (O2) to improve the performance of organic light-emitting diodes. Thin Solid Films 444 254. [Pg.502]

Kang, J.W., Jeong, W.L, Kim, J.J., Kim, H.K., Kim, D.G., Lee, G.H., 2007. High-performance flexible organic light-emitting diodes using amorphous indium zinc oxide anode. Electrochem. Solid State Lett. 10, J75-J78. [Pg.351]

Vestweber, H., et al. 1995. Majority carrier injection from ITO anodes into organic light-emitting diodes based upon polymer blends. Synth Met 68 263-268. [Pg.833]

Fig. 10 Structure of an organic light-emitting diode. HIL hole injection layer (e.g., Cu-Phthalocyanine), HTL hole transport layer, EML emission layer, ETL electron transport layer, EIL electron injection layer (e.g., LiF). The light generated by the recombination of holes and electrons is coupled out via the transparent anode (e.g., indium-tin-oxide ITO). Typical cathode materials are Mg Ag, Ca/Ag, Al... Fig. 10 Structure of an organic light-emitting diode. HIL hole injection layer (e.g., Cu-Phthalocyanine), HTL hole transport layer, EML emission layer, ETL electron transport layer, EIL electron injection layer (e.g., LiF). The light generated by the recombination of holes and electrons is coupled out via the transparent anode (e.g., indium-tin-oxide ITO). Typical cathode materials are Mg Ag, Ca/Ag, Al...
K. Fehse, K. Walser, K. Leo, W. Lovenich and A. Elschner, Highly conductive polymer anodes as replacement of inorganic materials for high efficiency organic light-emitting diodes, Adv. Mater. 19, 441-444 (2007). [Pg.573]

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See also in sourсe #XX -- [ Pg.300 ]



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