P-153: Exciton Distribution and Microcavity Effects in Designing Top Emitting OLED Devices

P-153: Exciton Distribution and Microcavity Effects in Designing Top Emitting OLED Devices

Micro‐cavity and exciton distribution are investigated in top‐emitting organic light‐emitting diode (OLED) devices having a highly reflective anode patterned over silicon wafers. A narrow (delta‐doped) sensing layer method was used to obtain the exciton distribution profile for various dopant combin...

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Veröffentlicht in:SID International Symposium Digest of technical papers 2009-06, Vol.40 (1), p.1694-1697
Hauptverfasser: Khayrullin, Ilyas I., Ali, Tariq A., Vazan, Fridrich, Ghosh, Amalkumar P.
Format: Artikel
Sprache:eng
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Zusammenfassung:Micro‐cavity and exciton distribution are investigated in top‐emitting organic light‐emitting diode (OLED) devices having a highly reflective anode patterned over silicon wafers. A narrow (delta‐doped) sensing layer method was used to obtain the exciton distribution profile for various dopant combinations using a single or a double emissive layer. Results are compared to OLED with lower reflectivity anode. The exciton diffusion length plays a critical role in tuning the color coordinates of the emitted light when multiple emission layers are used in combination with microcavity to achieve a white top emitter OLED.
ISSN:0097-966X
2168-0159
DOI:10.1889/1.3256655