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Journal of Applied Physics / Volume 65 / Issue 9

J. Appl. Phys. 65, 3610 (1989); http://dx.doi.org/10.1063/1.343409 (7 pages)

Electroluminescence of doped organic thin films

C. W. Tang, S. A. VanSlyke, and C. H. Chen

Corporate Research Laboratories, Eastman Kodak Company, Rochester, New York 14650‐02122

(Received 7 October 1988; accepted 4 January 1989)

Electroluminescent (EL) devices are constructed using multilayer organic thin films. The basic structure consists of a hole‐transport layer and a luminescent layer. The hole‐transport layer is an amorphous diamine film in which the only mobile carrier is the hole. The luminescent layer consists of a host material, 8‐hydroxyquinoline aluminum (Alq), which predominantly transports electrons. High radiance has been achieved at an operating voltage of less than 10 V. By doping the Alq layer with highly fluorescent molecules, the EL efficiency has been improved by about a factor of 2 in comparison with the undoped cell. Representative dopants are coumarins and DCMs. The EL quantum efficiency of the doped system is about 2.5%, photon/electron. The EL colors can be readily tuned from the blue‐green to orange‐red by a suitable choice of dopants as well as by changing the concentration of the dopant. In the doped system the electron‐hole recombination and emission zones can be confined to about 50 Å near the hole‐transport interface. In the undoped Alq, the EL emission zone is considerably larger due to exciton diffusion. The multilayer doped EL structure offers a simple means for the direct determination of exciton diffusion length.

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KEYWORDS and PACS

Keywords

aluminium complexes, quinolines, hydroxy compounds, thin films, electroluminescence, crystal doping, quantum efficiency, coumarins

PACS

ARTICLE DATA

Digital Object Identifier
http://dx.doi.org/10.1063/1.343409

PUBLICATION DATA

ISSN

0021-8979 (print)  
1089-7550 (online)

For access to fully linked references, you need to log in.
    C. W. Tang and S. A. VanSlyke, Appl. Phys. Lett. 51, 913 (1987APPLAB000051000012000913000001).

    D. L. Dexter, J. Chem. Phys. 21, 836 (1952JCPSA6000021000005000836000001).

    P. M. Borsenberger, W. Mey, and A. Chowdry, J. Appl. Phys. 49, 273 (1978JAPIAU000049000001000273000001).


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