1)OLED有机发光器件
1.Influence of Annealing Treatment on ITO Surface and OLED Performances;退火处理对ITO表面特性及有机发光器件性能的影响
2.Efficient electron transport in organic light-emitting diodes(OLEDs)was demonstrated.采用该混合层作为共基质电子传输层制备了结构为[ITO/m-MTDATA/NPB/Alq3/Liq(33%)∶Bphen/LiF/Al]的有机发光器件,基于共基质电子传输层的器件驱动电压比传统器件降低了13%而效率却提高了21%。
3.This thesis includes two parts of works: Thin films packaging for organic emitting light devices (OLED)" and "The research of carbon nanotubes field emission displays (CNT-FED)".本论文主要包括“有机发光器件的薄膜封装”及“碳纳米管场发射显示器的研究”两部分工作。
英文短句/例句
1.Design of Time-resolved Spectroscopy System of Organic Light-emitting Device;有机发光器件时间分辨光谱系统设计
2.Studies on Performance Improvement in Top-emitting Organic Light-emitting Devices;顶发射有机发光器件性能改善的研究
3.Efficient white light-emitting device based on phosphorescent emissive layer combining with fluorescent emitter layer高效率磷光与荧光相结合的白色有机发光器件
4.Efficiency of an organic light-emitting devices based on CzHQZn as emitter以CzHQZn为主体的有机发光器件的发光效率
5.High Efficiency Organic Light Emitting Devices with Low-Voltage and High Carriers Balance载流子平衡的低压高效有机发光器件
6.White organic light-emitting devices based on a novel CzHQZn基于CzHQZn发光的白光有机电致发光器件
7.The Research of Organic Low Molecular Electroluminescent Devices白光有机小分子电致发光器件的研究
8.Light Out-Coupling Efficiency in Flexible Organic Light-Emitting Devices可弯曲式有机电致发光器件的出光率
9.Novel Structure Yellow Organic Light-emitting Devices Based on (E)-2-(2-(9H-fluoren-2-yl)vinyl) Quinolato-Zinc as Emitter基于FHQZn发光的新结构有机黄光器件
10.Luminescent Properties of White Organic Light-Emitting Devices Based on Rubrene Ultrathin Layer白光有机电致发光器件中Rubrene超薄层的发光性能
11.Fluorescence Spectra of Rubrene Dopant for Organic Light-Emitting Devices有机电致发光器件中Rubrene掺杂剂的荧光光谱性质
12.The Influence of Thickness of Luminescent Layer on Organic EL Properties发光层厚度对有机电致发光器件性能的影响
13.Research on Improving the Efficiency of Organic Light-emitting Devices;改善有机电致发光器件发光效率的研究
14.Study on the Improvement of Efficiency and Contrast in Organic Light-emitting Devices;有机电致发光器件发光效率及对比度的提高
15.Study on the Luminescence Properties and Fabrication of Organic Light-Emitting Devices;有机电致发光器件的制作及其发光性能的研究
16.Study on Adjusting the Spectra of Inverted Top-emitting Organic Light-emitting Devices倒置顶发射有机电致发光器件光谱调节的研究
17.Studies on Novel High Performance Organic Light Emitting Devices;新型高性能有机电致发光器件的研究
18.Researches on Solution Processed Organic Light-Emitting Diodes;基于溶液法的有机电致发光器件研究
相关短句/例句
organic light-emitting devices有机发光器件
1.Energy transfer in PtOEP doped Alq_3 organic light-emitting devices;PtOEP掺杂Alq_3有机发光器件的能量传递
2.Top-emitting organic light-emitting devices (OLEDs) offer a feasible fabrication of OLED displays on opaque substrates, such as Si wafers and active-matrix backplanes with complicated pixel circuits of thin-film transistors and integrate circuit.为了更好地实现有机发光器件在硅片上的有源矩阵显示,有必要探讨在硅片上直接制作透明阴极的顶发射有机发光器件。
3.This thesis is devoted to the study of surface and interface problems in organic light-emitting devices (OLEDs) by means of photoelectron Spectroscopy (PES), especially synchrotron radiation PES.作者在博士生阶段致力于以光电子能谱、特别是同步辐射光电子能谱为主要实验技术研究有机发光器件中的各类表面与界面问题,具体内容集中在以下三个方面:一、研究了有机发光器件中有机与无机材料间的界面,着重探讨双亲分子硬脂酸钠(C_(17)H_(35)COONa)缓冲层改善金属/Alq有机层界面特性的机理问题。
3)organic light-emitting device有机发光器件
1.To investigate effective means of improving the efficiency of organic light-emitting devices(OLEDs)by making full use of triplet emission,a phosphorescent material Pt(II)Octaethylporphine(PtOEP)is doped into polymer host polyspirobifluorene(Spiro)to allow radiative recombination of triplet excitons.为了利用有机三线态发光提高有机发光器件的发光效率,用磷光材料掺杂到聚合物主体中作为发光层,制备有机电致发光器件。
2.We demonstrate a pure-blue tandem organic light-emitting device(OLED) employing the blue fluorescent emitter,ter(9,9-phenylfluorene) fluoride(TPFF).可见,采用叠层结构是制备高亮度高效率的深蓝色有机发光器件的一种有效方法。
3.A novel tandem organic light-emitting device (OLED) was demonstrated employing WO3 thin film as charge generation layer and its thickness was optimized.研究了采用薄层WO3作为叠层有机发光器件电荷产生层时的性能并对其厚度进行了优化,器件的电荷产生层由Li掺杂的电子注入层和高透明的WO3组成。
4)organic light emitting device有机发光器件
1.These effects can be used to improve the electroluminesence(EL) performances of organic light emitting device(OLED).利用这些腔效应,可以改善有机发光器件的性能。
5)organic light emitting diode有机发光器件
1.Four blue organic light emitting diodes(OLED) based on anthracene derivatives(ADN) doped with different dopants have been prepared.以ADN为基质,分别以不同掺杂剂制备了四种蓝色有机发光器件,器件结构为:CuPc(12 nm)/NPB(40 nm)/AND∶Dopant(50 nm)/Alq(12 nm)/LiF(4 nm)/Al。
6)organic light emitting devices有机光发射器件
延伸阅读
半导体负阻发光器件 用发光材料制造的具有正向电压负阻型的结发光二极管,其正向υ-I特性呈S形(图1)。当正向电压达到导通电压υS时,二极管由高压关态(高阻态)经过负阻过程达到低压通态(低阻态)。描述正向电学导通特性的主要参数是:导通电压υS;导通电流IS;维持电压υH;维持电流IH;导通时间τon;关断时间τoff。描述发光特性的参数与一般发光器件相同。常用的结构有PNPN型及 PIN型。所用材料为GaAs、GaInAsP、GaP、GaAsP等。PIN型器件的电性能和发光性能不佳。PNPN型负阻发光器件的电导通原理,可用等效双晶体管模型的电学正反馈作用来描述。用某种方式使二极管导通(电导通或光导通)后,由于少数载流子注入到发光有源区,产生辐射复合发光(包括受激发射)。 一个良好的PNPN负阻发光器应满足两方面的要求。①电学上的完全导通:即在正向通态时,由于中间PN结两侧载流子存储作用使该结变成正偏置,这时整个二极管压降应为一个简单的PN结大注入时的结压降,例如GaAs应为1.5伏左右。这时,器件具有最大的通态电流密度和最小的结功耗,称为电学完全导通。②良好的发光特性:除了材料的质量要求外,在结构上应使发光区有良好的载流子限制和光限制,使之具有高的发光效率。采用适宜的多层异质结构,可能使这些要求得到兼顾。 对器件结构的这两项要求,可用双晶体管模型来分析(图2)。 在整个负阻区和通态区,完全导通的条件是:
