MoO_3 as a cathode buffer layer for enhancing the efficiency in white organic light-emitting diodes 被引量：1

MoO_3 as a cathode buffer layer for enhancing the efficiency in white organic light-emitting diodes

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摘要 Molybdenum trioxide （MOO3） as a cathode buffer layer is inserted between LiF and A1 to improve the efficiency of white organic light-emitting diodes （OLEDs） in this paper..By changing the MoO3 thickness, a higher current efficiency of 5.79 cd/A is obtained at a current density of 160 mA/cm2 for the device with a 0.8 nm-thick MoO3 layer as the cathode buffer layer, which is approximately two times greater than that of the device without MoO3. The mechanism for improving the device efficiency is discussed. Moreover, at a voltage of 13 V, the device with a 0.8 nm-thick MoO3 layer achieves a higher luminance of 22370 cd/m2, and the Commission Internationale de I＇Eclairage （CIE） color coordinate of the device with 1 nm-thick MoO3 layer is （0.33, 0：34）, which shows the best color purity. Simple electron-only devices are tested to confirm the impact of the MoO3 layer on the carrier injection.

作者张静张方辉丁磊李艳菲梁田静

机构地区 School of Electric and Information Engineering

出处《Optoelectronics Letters》 EI 2012年第4期256-259,共4页 光电子快报（英文版）

基金 supported by the National Natural Science Foundation of China(No.61076066) the Doctor Foundation of Shaanxi University of Scienceand Technology(No.BJ09-07)

关键词 Buffer layers Cathodes EFFICIENCY Organic light emitting diodes (OLED) 有机发光二极管三氧化钼缓冲层阴极设备效率白光 MoO3 OLEDs

分类号 TN312.8 [电子电信—物理电子学] TQ136.12 [化学工程—无机化工]

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参考文献10

1ZHANG Xin,WANG Yong-jun,ZHANG Qi,XIN Xiang-jun,WANG Guang-hui. Joural of Optoelectronics.Laser . 2011
2Hoping M,Schildknecht C,Gargouri H,Riedl T,Tilgner M,Johannes H H,Kowalsky W. Applied Physics Letters . 2008
3Stossel. Applied Physics Letters . 2000
4Chih-I Wu,Guan-Ru Lee,Tun-Wen Pi. Applied Physics Letters . 2005
5L. S. Hung,R.Q. Zhang,P. He,and G. Mason. Journal of Physics D Applied Physics . 2002
6Chih-Wei Chu,Sheng-Han Li,Chieh-Wei Chen,Vishal Shrotriya,Yang Yang. Applied Physics Letters . 2005
7J.Meyer,S.Hamwi,T.Bülow,H.-H.Johannes,T.Riedl,W.Kowal-sky. Applied Physics Letters . 2007
8YU Dong-bin,LIN Hua-ping,ZHANG Xiao-wen,ZHOU Fan,LI Jun,ZHANG Liang,JIANG Xue-yin,ZHANG Zhi-lin. Journal of Optoelectronics.Laser . 2011
9Xiao-Wen Zhang,M.A.Khan,Xue-Yin Jiang,Jin Cao,Wen-Qing Zhu,Zhi-Lin Zhang. Physica B Condensed Matter . 2009
10J.Kido,T.Matsumoto. Applied Physics Letters . 1998

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1OHEN Shu-ming, TAN Gut-ping, WONG Wai-yeung, et al. White organic light-emitting diodes with evenly separated red, green, and blue colors for efficiency/color-rendition trade-off optimization [J]. Adv. Funct. Mater, 2011,21 : 3785-3793.
2Xiao Y, Yang J P,Oheng P P,et al. Surface plasmon-en- hanced electroluminescence in organic light-emitting di- odes incorporating Au nanoparticles [J]. Appl. Phys. Lett. ,2012,100(1):013308.
3HAN Chun-miao, XlE Guo-hua, XU Hui, et al. A single phosphine oxide host for high-efficiency white organic light-emitting diodes with extremely low operating volta- ges and reduced efficiency roll-off[J]. Adv. Mater., 2011, 23 :2491-2496.
4See C W,Lee J Y. High efficiency in two color and three color phosphorescent white organic light-emitting diodes using a 2,7-substituted 9-phenylcarbazole derivative as the host material[J]. Organic Electronics, 2011,12 : 1459- 1464.
5Yook K S,Lee J Y. High efficiency and low efficiency roll off in white phosphorescent organic light-emitting diodes by managing host structures[J]. Appl. Phys. Lett., 2008, 92(19) : 193308.
6Jeon S O, Lee J Y. Above 20 % external quantum efficien- cy in green and white phosphorescent organic light-emit- ting diodes using an electron transport type green host material[J]. Organic Electronics, 2011,12 : 1893-1898.
7Steinbacher F S, Krause R, Hunze A, et al. Simplified, yellow,organic light emitting diode by co-evaporation of premixed dye molecules[J]. Organic Electronics, 2011, 12(6) :911-915.
8Lindla F,Boesing M,Zimmermann C,et al. Highly efficient yellow organic light emitting diode based on a layer-cross faded emission layer allowing easy color tuning[J].Appl. Phys. Lett. ,2009,95:213305.
9Seo C W,Yoon J H,Lee J Y. Engineering of charge trans- port materials for universal low optimum doping concen- tration in phosphorescent organic light-emitting diodes [J]. Organic Electronics, 2012,13(2) : 413-469.
10姜文龙,丁桂英,王静,汪津,王立忠,常喜.高浓度掺杂Ir(ppy)_3和Rubrene的高效率有机发光器件[J].光电子．激光,2008,19(12):1618-1621. 被引量：1

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1紧凑、高效UPS[J].网管员世界,2008(19):11-11.
2高效的手机显示屏[J].电脑爱好者,2007(19):13-13.
3半瓦的备用电源提高了设备效率[J].今日电子,2001(12):44-44.
4罗茜文.浙江中程:面向对象的冷却系统可确保节能30%[J].移动通信,2010,34(10):95-95.
5赵福生,王福海.提高可控硅中频电源效率探讨与实践[J].煤矿机械,1995,16(6):54-55.
6侯林涛,王平,王标,梁振锴,刘彭义,吴冰,张秀菊.高效叠层有机电致发光器件(英文)[J].液晶与显示,2011,26(2):142-146. 被引量：4
7Matthew P. Peloso.Defect Detection in Raw Si Substrates Using Transmission Polarimetry[J].Journal of Energy and Power Engineering,2014,8(7):1341-1349.
8David Hawke.在蜂窝式无线电基础架构中实现软件可编程数字预失真[J].今日电子,2013(9):35-37.
9李景新,张维戈,姜久春.高效低压恒流充电电源的研制[J].电子产品世界,2006,13(10S):78-78.
10马立新,王民权,樊先平.镧系稀土离子在硼酸盐和磷酸盐玻璃中的发光特性[J].玻璃与搪瓷,1996,24(4):1-7.

Optoelectronics Letters

2012年第4期

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MoO_3 as a cathode buffer layer for enhancing the efficiency in white organic light-emitting diodes 被引量：1

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