共查询到19条相似文献,搜索用时 390 毫秒
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采用C60/pentanece作为非掺杂电荷产生层,并在其两边各插入Al和MoOs薄层作为C60和pentanece的电子注入层和空穴注入层,在此基础上制备了结构为ITO/NPB/mCP∶8wt%Ir (ppy) 3/TPBi/Al/C60/pentanece/MoOs/NPB/mCP∶8wt%Ir (ppy) 3/TPBi/Cs2CO3/Al的双发光单元叠层绿色磷光有机发光器件(OLED).实验表明,增加Al和MoO3电荷注入层,可有效改善有机电荷产生层的电荷注入能力,提高叠层OLED器件的发光亮度和电流效率.叠层器件的启亮电压明显低于单个器件的1/2,但电流效率是单层器件的两倍以上.当Al/C60/pentanece/MoO3的厚度分别是3、15、25和1 nm时,叠层OLED器件具有最佳的光电性能,其最大亮度和最大电流效率分别是7 920.0 cd/m2和16.4 cd/A. 相似文献
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Stanley Chen 《今日电子》2009,(2)
PHOLED的诞生 PHOLED(磷光有机发光器件)是有机发光二极管(OLED)的一种,它的效率可以高达传统荧光OLED的4倍.OLED是单片固态器件,通常由被两层薄膜导电电极夹在中间的一系列有机薄膜组成.如果在OLED上加电,导电载流子(空穴和电子)将从电极注入到有机薄膜.然后,在电场的作用下,这些载流子在器件内部迁移,直到复合形成激子.一旦形成,这些激子或激发态,将通过发光和/或发热的方式下降到较低的能级. 相似文献
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电极用金属的功函数对OLED发光性能的影响 总被引:2,自引:0,他引:2
OLED是一种主动发光器件,影响器件发光性能的因素很多,如电子流与空穴流间的平衡、发光层内电子与空穴的有效复合、外部注入非平衡载流子的能力等。外部注入非平衡载波子的能力与金属-半导体的界面特性有关。本文基于热电子发射理论论述了电极用金属的功函数与非平衡载流子注入的关系,说明其对OLED发光性能的影响。 相似文献
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以具有指数分布的陷阱电荷限制电流为基础,用数值方法定量分析了单层有机电致发光器件(OLED)发光材料陷阱特性和发光层厚度对器件电流和亮度的影响。结果表明,电流密度和亮度随陷阱分布特征能级和有机层厚度的增大指数减小,并与总陷阱密度的1次方成反比,1为陷阱分布特征参数。 相似文献
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白光OLED(organic light-emitting diodes)因具有超薄、可以柔性化、透明化、面发光等优点而备受关注,其有可能成为未来的固态照明器件。目前白光OLED的器件主要为单层、双层、三层、四层发光区以及叠层和微腔等结构,不同的结构具有各自的优点。器件结构的优化和改进,使得白光OLED器件的效率可以媲美荧光灯。介绍了白光OLED的工作原理,结合国内外的发展综述了白光OLED器件结构的研究进展。最后,讨论了几种增强白光OLED的结构。 相似文献
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为提升OLED器件(结构为Ag/NPB/Alq3/LiF/Al)的性能,采用紫外光(UV)对银(Ag)阳极进行改性,探究阳极改性对器件性能的影响.研究结果表明:UV改性Ag阳极的时长为50 s时,器件性能最佳,启亮电压从20 V降低到6V,最大亮度从101.6 cd/m2提高到5 609.2 cd/m2,电流效率得到很大提升,且改性前后其发光峰的位置没有改变.UV改性使Ag阳极表面氧化生成氧化物,该氧化物薄层可作为空穴注入层,能够有效提高界面功函数,大大降低空穴注入势垒,提高了载流子注入能力,使绿光OLED器件的发光性能得到改善.这种利用UV改性Ag阳极的方法工艺简单,能有效降低空穴注入势垒,对提高该类柔性OLED器件的性能具有一定应用价值. 相似文献
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Hyunsu Cho Chul Woong Joo Sukyung Choi Chan-mo Kang Gi Heon Kim Jin-Wook Shin Byoung-Hwa Kwon Hyunkoo Lee Chun-Won Byun Nam Sung Cho 《ETRI Journal》2021,43(6):1093-1102
Microdisplays based on organic light-emitting diodes (OLEDs) have a small form factor, and this can be a great advantage when applied to augmented reality and virtual reality devices. In addition, a high-resolution microdisplay of 3000 ppi or more can be achieved when applying a white OLED structure and a color filter. However, low luminance is the weakness of an OLED-based microdisplay as compared with other microdisplay technologies. By applying a tandem structure consisting of two separate emission layers, the efficiency of the OLED device is increased, and higher luminance can be achieved. The efficiency and white spectrum of the OLED device are affected by the position of the emitting layer in the tandem structure and calculated via optical simulation. Each white OLED device with optimized efficiency is fabricated according to the position of the emitting layer, and red, green, and blue spectrum and efficiency are confirmed after passing through color filters. The optimized white OLED device with color filters reaches 97.8% of the National Television Standards Committee standard. 相似文献
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Satoru Ohisa Tatsuya Takahashi Masahiro Igarashi Hitoshi Fukuda Tatsuya Hikichi Ryutaro Komatsu Emi Ueki Yong‐Jin Pu Takayuki Chiba Junji Kido 《Advanced functional materials》2019,29(16)
The study reports the development of a solution‐processed phosphorescent tandem organic light‐emitting device (OLED) exhibiting extremely small efficiency roll‐off. The OLED comprises two light‐emitting units (LEUs) connected by an interconnecting unit and employs a thermally activated delayed fluorescence host material. One of the most difficult tasks in the fabrication of OLEDs is to form a multilayer structure without dissolving the underlayer during the coating of the upper layer. The developed host materials exhibit high tolerance to methanol. The upper‐layer adjacent to the light‐emitting layer consists of ZnO nanoparticles, which could be dispersed in methanol by improving the preparation method. This results in the successful fabrication of a solution‐processed phosphorescent tandem OLED comprising two LEUs. The maximum external quantum efficiency (EQE) of the tandem device is 22.8%, and the EQE is 21.9% even at a high luminance of 10 000 cd m?2. The suppression of efficiency roll‐off is among the best of those previously reported. Moreover, the operational stability of the tandem device is much higher compared with single‐LEU devices. 相似文献
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具有复合空穴传输层的高效低压有机电致发光器件 总被引:2,自引:2,他引:0
报道了用m-MTDATA掺杂NPB作复合空穴传输层(c-HTL)的高效率、低电压有机电致发光器件(OLED),器件的最高发光效率达到了5.3cd/A,比NPB作HTL的器件(3.4cd/A)提高了约50%.这是由于c-HTL具有较低的空穴迁移率,改善了发光层中两种载流子的平衡,从而提高了器件性能.进一步在ITO与c-H... 相似文献
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LIJuan HUAYu-lin WANGChang-sheng XIONGShao-zhen 《半导体光子学与技术》2004,10(1):41-43,47
The white organic light emitting device (OLED) with single-structure using a polymer blend as the light emitting layer is fabricated. Heat treatment is used to control the ratio between the intensities of main electroluminescent spectral peaks. The electroluminescent spectrum of our device is quite similar to that of white inorganic LED produced by Nichia Corporation after being annealed, and its turn-on voltage can be decreased by 1V. 相似文献
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热处理对白色有机电致发光器件发光性能的影响 总被引:2,自引:2,他引:0
为获得优质的有机电致发光器件.它的发射光谱是一个关键的因素。传统的方法是采用红、绿、蓝色多层叠合产生白光,但难以控制各基色的峰值强度。制备了利用混合型聚合物作为白色发光层的单层结构有机电致发光器件((OLED),其制备过程比多层结构器件简单得多。一种热处理方法(180℃,1h)用来控制此类白光OLED中各主要电致发光光谱峰值强度间的比例。经过热处理后,这种白光器件的电致发光光谱很接近于Nichia公司的无机白色发光二极管产品的电致发光光谱。由此可推测器件的色坐标接近于白色等能点,而且其阈值电压比热处理前降低了1V。 相似文献
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有机电致发光器件(OLED)因具有较多的优点,在显示领域有着光明的前景,其最大的优越性在于能够实现柔性显示,制作成柔性有机电致发光二极管(FOLED).OLED对水蒸气和氧气非常敏感,渗透进入器件内部的水蒸气和氧气是影响OLED寿命的主要因素,因此,封装技术对器件非常重要.对现有的主要的FOLED衬底材料和封装方法进行... 相似文献
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An experimental approach to determine the spatial extent and location of the exciton recombination zone in an organic light‐emitting device (OLED) is demonstrated. This technique is applicable to a wide variety of OLED structures and is used to examine OLEDs which have a double‐ (D‐EML), mixed‐ (M‐EML), or graded‐emissive layer (G‐EML) architecture. The location of exciton recombination in an OLED is an important design parameter, as the local optical field sensed by the exciton greatly determines the efficiency and angular distribution of far‐field light extraction. The spatial extent of exciton recombination is an important parameter that can strongly impact exciton quenching and OLED efficiency, particularly under high excitation. A direct measurement of the exciton density profile is achieved through the inclusion of a thin, exciton sensitizing strip in the OLED emissive layer which locally quenches guest excitons and whose position in the emissive layer can be translated across the device to probe exciton formation. In the case of the G‐EML device architecture, an electronic model is developed to predict the location and extent of the exciton density profile by considering the drift, diffusion, and recombination of charge carriers within the device. 相似文献
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This paper is based on the analysis of white organic electroluminescent device electroluminescent spectrum to explain the regular pattern of carrier radiation distribution.It has proved electron that is injected from cathode is satisfied with the regularity of radiation distribution on the organic emitting layer.This radiation distribution is related to several factors,such as electron injection capabilities,applied electrical field intensity,carrier mobility,etc.The older instruction design is ITO/2-TNATA/NPB/ADN:DCJTB:TBPe/Alq3/cathode.Get to change electron injector capabilities through using different cathode and also find electroluminescent spectrum to produce significant changes.Simultaneously,electron radiation quantity has some limitation,and electroluminescent spectrum reflects that spectral intensity does not change anymore when the ratio of cathode dopant to a saturated state on the organic emitting layer.It also shows the same spectrum variational phenomenon while changing the applied electrical field intensity.To put forward of the carrier radiation distribution is good for organic light emitting diode (OLED) luminescence properties analysis and research. 相似文献