Energy Loss Mechanism in Organic and Inorganic Light-Emitting Diodes
Photonics Technology Letters, IEEE(2008)
摘要
We report that there exists a similar energy loss mechanism in fluorescent/phosphorescent organic light-emitting diodes (F/P OLEDs) and inorganic semiconductor optoelectronic devices [1310-nm InGaAsP-InP superluminescent diodes (SLDs)]. The loss of energy in inorganic SLDs based on thickness-altered asymmetric multiple quantum-well (QW) structures occurs depending sensitively on the sequence of QWs, an analogous behavior also observed in F/P OLEDs depending on the sequence of phosphorescent dopants for different colors. It is shown that such an energy (power) loss is evitable by placing long-wavelength QWs near the p-side in inorganic SLDs and similarly long-wavelength phosphors near the hole-transporting layer in F/P OLEDs.
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关键词
phosphorescent dopants,energy loss,indium compounds,InGaAsP-InP,hole-transporting layer,Inorganic superluminescent diode (SLD),asymmetric multiple quantum-well structures,gallium arsenide,organic light emitting diodes,organic light-emitting diodes,quantum well devices,inorganic light-emitting diodes,superluminescent diodes,long-wavelength phosphors,fluorescence,wavelength 1310 nm,phosphorescence,phosphors,phosphorescent OLED,organic light-emitting diode (OLED),fluorescent OLED,integrated optoelectronics,inorganic semiconductor optoelectronic devices
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