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- In this paper, effects of small molecule doping with coevaporation method on effciencies, lifetimes and colors of organic EL devices are reviewed. 叙述了采用共蒸发法进行有机小分子掺杂对有机EL器件效率、寿命和发光色的影响规律。
- On the other hand, using emission from triplet excitons, the efficiency of organic EL devices can be increased to 100% theoretically. 另外,利用三重态激子发射可以提高EL器件效率,理论上可达100%25;
- Organic EL belongs to a electric injection luminescence, and electrode materials should play very important role in carrier injection of EL devices, which was, however, neglected sometimes. 由于有机EL属于电注入发光,因而电极材料在EL器件的载流子注入中起着重要作用,但这往往被人们所忽略。
- Keywords organic electroluminescent material;hole-transporting material;polymer;organic EL device; 有机电致发光材料;空穴传输材料;高聚物;有机EL器件;
- The Buffer Layer in Organic EL Devices and the Metal-Doping 有机电致发光器件的Buffer Layer及其金属掺杂
- organic EL device 电致发光器件
- Influence of Metal/Organic Interface Barriers on the EL Efficiency in Single-layer Organic EL Devices 金属 /有机界面势垒对单层有机电致发光器件发光效率的影响(英文)
- J. Endo.J. Kido.T. Matsumoto Alkaline metal complexes as electron-injecting layer in organic EL devices 1999 吴有智.;郑新友
- The influence of the configuration of luminescent center on the emission of ZnS: Er3+ EL device has been investigated. 研究了ZnS:Er3+薄膜电致发光(EL)器件中,不同Er3+掺杂浓度的发光特性。
- For the diamond thin films EL device, which with single layer structure, the EL spectral peak is at 430nm,in the blue region. 对单层结构的器件来说,其电致发光光谱峰值在430nm处,属蓝区发光;
- In his lecture, Ihara said, "We don't expect the organic EL TV to replace the LCD TV so easily. 在演讲中,井原就有机EL电视表示,“我不认为有机EL电视会轻易取代液晶电视。
- This paper summarizes the progress of the molecular organic EL materials, especially highlighting the oligomer and carrier-transporting emitters. 本文主要介绍近年来有机分子电致发光材料最新的发展,并特别讨论了齐聚物和含载流子传输单元的发光体。
- Coverage on organic EL expanded in a scoop due to a series of announcements by presidents and executive officers of major electronics manufacturers. 由于各大电子设备厂商高层及官员的一连串发表,一举提高了对有机EL的关注度。
- Organic thin film EL devices with double layered ITO coated glass/TPD/Gaq3/Al structure are fabricated. Mechanisms of PL for Gaq3 thin film and EL for the devices are studied. 首次报道了采用8-羟基喹啉镓螯合物(Gaq3)作为发光层制备有机薄膜电致发光器件,器件的结构为:ITO导电玻璃/TPD/Gaq3/Al。
- Especially, under DC voltage of 18V, the blue light EL device can emit light at 483nm with the FWHM of 20nm, whose intensity is 10 times enhanced than that of p-i junction EL spectrum. 其中,电致蓝光发射器件在18V直流电压激励下可以在483nm处发射半高宽为20nm的蓝光,强度较p-i结结构同一波长位置的EL谱提高约10倍,这已达到硅基电致发光研究领域的国际水平。
- VOLTAGE CONTROLLED COLOR VARIABLE ORGANIC THIN FILM EL DEVICE 电压调节变色的有机薄膜电致发光器件
- EL devices were fabricated based on 20-nm-thickness Ge-SiO. , films andtheir structures are Au/Ge-Si02/p-Si and Au/Ge-Si02/n-Si. 在20nm厚的Ge-SiO_2薄膜基础上制备出电致发光器件,结构分别为Au/Ge-SiO_2/p-Si、Au/Ge-SiO_2/n-Si。
- The measurements of optical and electrical properties have been trade-on ZnS DC thin film EL devices with Al-Al2O3-ZnS: Cu,Er, Cl-SnO2 structure. 对Al-Al_2O_3-ZnS:Cu,Er,Cl-SnO_2直流薄膜电致发光(DCTEL)器件作了光电特性测量。
- The design and synthesis of electroluminescent polymers, luminescence mechanism and the study of EL devices have been becoming the most active research field in recent years. 近年来,电致发光聚合物的分子设计、合成及聚合物发光机理和EL器件的研究成为最具有活力的研究领域。
- Tentative Study on Organic EL Digital Display 有机电致发光数码显示器件的初步研究