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Ultraviolet electroluminescence and blue-green phosphorescence using an organic diphosphine oxide charge transporting layer
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Citations
20
References
2006
Year
Optical MaterialsEngineeringOrganic ElectronicsOptoelectronic DevicesChemistryLuminescence PropertyChemical EngineeringElectronic DevicesPhosphorescence ImagingPhotodetectorsElectron TransportingThermally Activated Delayed FluorescencePhotophysical PropertyOrganic DiphosphinePhotochemistryOptoelectronic MaterialsOrganic SemiconductorPo1 LayerUltraviolet ElectroluminescenceOrganic Charge-transfer CompoundWhite OledElectronic MaterialsDiphenylphosphine OxideApplied PhysicsBlue-green PhosphorescenceOptoelectronicsPhosphorescence
We report electroluminescence at 338nm from a simple bilayer organic light-emitting device (OLED) made using 4,4′-bis(diphenylphosphine oxide) biphenyl (PO1). In an OLED geometry, the material is preferentially electron transporting. Doping the PO1 layer with iridium(III)bis(4,6-(di-fluorophenyl)-pyridinato-N,C2′)picolinate (FIrpic) gives rise to electrophosphorescence with a peak external quantum efficiency of 7.8% at 0.09mA∕cm2 and 5.9% at 13mA∕cm2. The latter current density is obtained at 6.3V applied forward bias.
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