Title :
Coupling efficiency enhancement in organic light-emitting devices using microlens array-theory and experiment
Author :
Peng, Huajun ; Ho, Yeuk Lung ; Yu, Xing-Jie ; Wong, Man ; Kwok, Hoi-Sing
Author_Institution :
Dept. of Electr., Electron. Eng. Hong Kong Univ. of Sci. & Technol., China
Abstract :
Microlens arrays are introduced on glass substrates to improve the out-coupling efficiency of organic light-emitting devices (OLEDs). The microlenses suppress waveguiding loss in the substrate. A theoretical model, based on electromagnetic wave propagation and geometric ray tracing, is developed to simulate the enhancement effects and optimize the structure parameters of the lens pattern. A simple soft-lithography approach is employed to fabricate the microlens array on glass substrates. With the use of an optimized lens pattern, an increase of over 85% in the coupling efficiency of the OLED is expected theoretically. An increase of 70% in the coupling efficiency is achieved experimentally, without detrimental effect to the electrical performance of the OLED.
Keywords :
electromagnetic coupling; electromagnetic wave propagation; electronic engineering computing; glass; microlenses; optical couplers; organic light emitting diodes; ray tracing; soft lithography; coupling efficiency enhancement; electrical performance; electromagnetic wave propagation; enhancement effects; geometric ray tracing; glass substrates; microlens array; optimized lens pattern; organic light-emitting devices; soft-lithography approach; structure parameters; theoretical model; waveguiding loss; Electromagnetic modeling; Electromagnetic propagation; Glass; Lenses; Microoptics; Optical arrays; Optical coupling; Organic light emitting diodes; Ray tracing; Solid modeling; Coupling efficiency; microlens array; organic light-emitting diodes (OLEDs); soft lithography;
Journal_Title :
Display Technology, Journal of
DOI :
10.1109/JDT.2005.858944
