采用蓝色发光材料ADN为主体发光材料、BAlq3为掺杂材料,通过改变BAlq3的掺杂浓度制备了结构为ITO/NPB/ADN:BAlq3/Alq3/Mg:Ag的一系列蓝光有机发光器件(OLED).研究了器件各有机层之间的能级匹配和BAlq3的掺杂浓度对载流子注入、传输、复合以及发光色纯度的影响.实验结果表明,空穴阻挡材料BAlq3的掺入显著影响OLED的电流密度、发光亮度、发光效率和发光光谱,当BAlq3的掺杂浓度为25%时,OLED的发光效率为1.0 lm/W,发光光谱的峰值为440 nm,色纯度为(0.18,0.15),未封装器件的半衰期为950小时,器件同时满足了高效率和高色纯度的要求.
参考文献
| [1] | Burrows P E,Gu G,Forrest S R.Stacked organic light emitting devices for full color flat panel displays[C] //SPIE,1998,3363:269-277. |
| [2] | Song Dengyuan,Wang Xiushan.Organic light-emitting device flat panel display and shemes for achieving color pixel[J].Chinese Jounnal of Quantum Electronics (量子电子学报),1998,15(4):337-343 (in Chinese). |
| [3] | Liu S W,et al.Blue mixed host organic light emitting devices[J].Thin Solid Films,2004,453:312-315. |
| [4] | Shi J,et al.Organic dectroluminescent elements for stable blue electroluminescent[P].US Patent,1999,5935721. |
| [5] | Shi J,Tang C W.Anthracene derivatives for stable blue-emitting organic electroluminescence devices[J].Appl.Phys.Lett.,2002,80(17):3201-3203. |
| [6] | Kong R C,Nugnet M R,Michalski L,et al.High operational stability of lectrophosphorescent devices[J].Appl.Phys.Lett.,2002,81(1):162-164. |
| [7] | Hosokawa C,Tokailin H,Higashi H,et al.Efficient electroluminescence of distyrylarylene with hole transporting ability[J].Jpn.J.Appl.Pyx Part 2,Lett.,1995,67:3853-3855. |
| [8] | Kan Y,et al.Highly efficient blue electroluminescence based on a new anthracene derivative[J].Synth.Met.,2004,141:245-49. |
| [9] | O'Brien D F,Baldo M A,Thompson M E,et al.Improved energy transfer in electrophosphorescent devices[J].Appl.Phys.Lett.,1999,74(3):442-444. |
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