Hang Ken Lee scite author profile

Efficient white‐light‐emitting diodes (WLEDs) have been developed using a polyfluorene‐type blue‐emitting conjugated polymer doped with green and red phosphorescent dyes. The emission spectrum of the conjugated polymer, which has a very high luminescent efficiency, shows a large spectral overlap with the absorbance of green and red iridium complexes. Also, efficient energy transfer from the conjugated polymer to the iridium complexes is observed. Poly(N‐vinyl carbazole) is used to improve the miscibility between conjugated polymer and iridium complexes because of their poor chemical compatibility and phase separation. A white emission spectrum is easily obtained by varying the contents of the three materials and controlling the phase morphology. Moreover, these WLEDs show a voltage‐independent electroluminescence owing to the threshold and driving voltage of the three materials being similar as a result of energy transfer.

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Effects of UV light-irradiated buffer layer on the performance of polymer solar cells

Lee

Kim

Park

2009

Organic Electronics

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White-light-emitting diodes using miscible polymer blend doped with phosphorescent dye

Lee¹,

Kim²,

Park³

et al. 2011

Organic Electronics

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The effect of a concentration graded cathode for organic solar cells

Jeon

Lee

Wang

et al. 2011

Solar Energy Materials and Solar Cells

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Hang Ken Lee

Dye-sensitized solar cells with Pt- and TCO-free counter electrodes

White-Light-Emitting Diodes Based on Iridium Complexes via Efficient Energy Transfer from a Conjugated Polymer

Effects of UV light-irradiated buffer layer on the performance of polymer solar cells

White-light-emitting diodes using miscible polymer blend doped with phosphorescent dye

The effect of a concentration graded cathode for organic solar cells

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