Phosphorescent dye-based supramolecules for high-efficiency organic light-emitting diodes

Organic light-emitting diodes (OLEDs) are among the most promising organic semiconductor devices. The recently reported external quantum efficiencies (EQEs) of 29–30% for green and blue phosphorescent OLEDs are considered to be near the limit for isotropically oriented iridium complexes. The preferr...

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Published in:Nature communications 2014-09, Vol.5 (1), p.4769-4769, Article 4769
Main Authors: Kim, Kwon-Hyeon, Lee, Sunghun, Moon, Chang-Ki, Kim, Sei-Yong, Park, Young-Seo, Lee, Jeong-Hwan, Woo Lee, Jin, Huh, June, You, Youngmin, Kim, Jang-Joo
Format: Article
Language:English
Subjects:
119/118
132/122
140/125
639/301/1019/1020/1091
639/638/403
639/638/541
Humanities and Social Sciences
multidisciplinary
Science
Science (multidisciplinary)
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Summary:Organic light-emitting diodes (OLEDs) are among the most promising organic semiconductor devices. The recently reported external quantum efficiencies (EQEs) of 29–30% for green and blue phosphorescent OLEDs are considered to be near the limit for isotropically oriented iridium complexes. The preferred orientation of transition dipole moments has not been thoroughly considered for phosphorescent OLEDs because of the lack of an apparent driving force for a molecular arrangement in all but a few cases, even though horizontally oriented transition dipoles can result in efficiencies of over 30%. Here we use quantum chemical calculations to show that the preferred orientation of the transition dipole moments of heteroleptic iridium complexes (HICs) in OLEDs originates from the preferred direction of the HIC triplet transition dipole moments and the strong supramolecular arrangement within the co-host environment. We also demonstrate an unprecedentedly high EQE of 35.6% when using HICs with phosphorescent transition dipole moments oriented in the horizontal direction. The limit external quantum efficiency of organic LEDs based on isotropically oriented iridium complexes is believed to be around 30%. But Kim et al . show that the emission from these complexes is in fact anisotropic, enabling them to increase the external quantum efficiency of these devices to 36%.
ISSN:2041-1723
2041-1723
DOI:10.1038/ncomms5769