F. Jermann scite author profile

We present a highly efficient white electroluminescence device by the combination of a solution processed blue organic phosphorescence light-emitting diode with appropriate down-conversion phosphor system. The use of this down-conversion system produced an extraordinary enhancement on device performance, resulting in a white electroluminescence device with luminance efficacy of 25lm∕W at luminance efficiency reaching 39cd∕A. The extraordinary enhancement on device performance is attributed to isotropic radiation pattern of the excited phosphor particles, leading to high light extraction properties.

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Ceramic Phosphors for Light Conversion in LEDs

Raukas

Kelso

Zheng

et al. 2012

ECS J. Solid State Sci. Technol.

149

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In the present article we briefly review some materials research aspects related to ceramic phosphors and discuss both typical characteristics as well as unique features of such optical converters. Devices with more efficiency and/or higher luminous flux that are based on converting the pump light crucially enable the use of LEDs in white and single color illumination schemes for many applications. Advantages of generating white light with ceramics versus powder-in-silicone are discussed. High performance of single color conversion LEDs in terms of efficacy and external quantum efficiency for the visible region boost the output in data or home cinema projection and automotive signaling but more applications are appearing.

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F. Jermann

Characterization of stoichiometric LiNbO3 grown from melts containing K2O

Light-induced charge transport in LiNbO_3:Fe at high light intensities

Highly efficient white organic light-emitting diode

Ceramic Phosphors for Light Conversion in LEDs

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