作者:周军红1, 韩绍虎2, 周登锦1, 吴忠杰1, 吴江宏1, 陆国权1, 罗旭东1
作者单位:1. 广东省计量科学研究院, 广东 广州 510405;
2. 华南理工大学, 广东 广州 510641
关键词:有机绿色电致发光器件; 输出耦合效率; 外量子效率; 喷砂打磨
摘要:
该文通过喷砂打磨技术使器件的表面粗糙化,有效地压制了玻璃层内的光波导,促进光子在玻璃-空气界面的散射,大幅度提高了有机绿色发光器件的输出耦合效率。有机绿色电致发光器件的流明效率、外量子效率分别提高到44.9 cda-1、15.4%,提高率达到54.0%。当粗糙度介于1~4 m之间时,器件的输出耦合效率提高率随着表面粗糙度的减小而提高。同时,粗糙表面对发光器件的朗伯体特性没有带来任何影响。
research to improve out-coupling efficiency of green organic light-emitting devices based on surface treatment
zhou jun-hong1, han shao-hu2, zhou deng-jin1, wu zhong-jie1, wu jiang-hong1, lu guo-quan1, luo xu-dong1
1. guangdong institute of metrology, guangzhou 510405, china;
2. south china university of technology, guangzhou 510641, china
abstract: the authors modified the device surfaces from smooth to rough based on the sand-blasting process. the rough surface effectively suppresses the optical waveguide in the glass layer, promoting photon scattering in the glass-air interface, thereby significantly improves output coupling efficiency of goled. the goled's luminous efficiency and external quantum efficiency was raised to 44.9 cd·a-1 and 15.4%, respectively, the improvement rate reached to 54.0%. furthermore, the improvement of the out-coupling efficiency is monotonously decreasing with the surface roughness within the roughness range from around 1 μm to 4 μm. at the same time, there has not caused any effect to the lambertian characteristics of the lighting devices by the rough surface. the technology provides the opportunity for large-area applications.
keywords: organic green light-emitting device; out-coupling efficiency; external quantum efficiency; sand-blasting
2014, 40(3): 133-136 收稿日期: 2013-8-30;收到修改稿日期: 2013-10-24
基金项目: 国家质量监督检验检疫总局科研项目(201310006-03);广东省质量技术监督局科研项目(2013zj04)
作者简介: 周军红(1980-),男,湖北天门市人,工程师,博士,主要从事led/oled/太阳能光伏领域计量检测技术的研究。
参考文献
[1] tang c w, vanslyke s a. organic electroluminance diodes[j]. appl phys lett,1987(51):913-915.
[2] burroughes j h, bradley d d c, brown a r, et al.light-emitting diodes based on conjugated polymers[j]. nature,1990(347):539-541.
[3] kido j, kimura m, nagai k. multilayer white light-emitting organic electroluminescent device[j]. science,1995(267):1332-1334.
[4] d'andrade b w, forrest s r. white organic light-emitting devices for solid-state lighting[j]. adv mater,2004(16):1585-1595.
[5] misra a, kumar p, kamalasanan m n, et al. white organic leds and their recent advancements[j]. semicond sci technol,2006(21):35-47.
[6] xiong y, xu w, li c, et al. utilizing white oled for full color reproduction in flat panel display[j]. org electron,2008(9):533-538.
[7] zhou j, ai n, wang l, et al. roughening the white oled substrate's surface through sandblasting to improve the external quantum efficiency[j]. org electron,2011(12):648-653.
[8] kim j s, ho p k h, greenham n c, et al. elecroluminescence emission pattern of organic light-emitting diodes:lmplication for device efficiency calculations[j]. j appl phys,2000(88):1073-1081.
[9] wang l, jiang y, luo j, et al. highly efficient and color-stable deep-blue organic light-emitting diodes based on a solution-processible dendrimer[j]. adv mater,2009(21):4854-4858.
[10] wu h, zhou g, zou j, et al. efficient polumer white-light-emitting devices for solid-state lighting[j]. adv mater,2009(21):4181-4184.
[11] ansi b46.1. surface texture(surface roughness waviness and lay)[j]. american society of mechanical engineers,2002.
[12] freeman m h, hull c c. optics[m]. 11th edition.new york:butterworth-heinemann,2003.
[13] schnitzer i, yablonovitch e, caneau c, et al. 30% external quantum efficiency from surface textured, thin-film light-emitting diodes[j]. appl phys lett,1993(63):2174-2176.
