电致发光

diàn zhì fā guāng
  • electroluminescence;electrofluorescence
电致发光电致发光
电致发光[diàn zhì fā guāng]
  1. 比较两类二极管(E和C)的电致发光和阴极射线发光光谱。

    Comparision of the electroluminescence and cathodoluminescence spectra for two type diodes .

  2. 稀土离子注入的硅材料MOS结构高效率电致发光器件

    Efficient Electroluminescence Devices with Rare Earth Ion Implanted Silicon MOS Structures

  3. 有机电致发光器件的BufferLayer及其金属掺杂

    The Buffer Layer in Organic EL Devices and the Metal-Doping

  4. 用C(60)为空穴缓冲层的高效率有机电致发光器件

    C_ ( 60 ) as a Hole-injecting Buffer Layer for Improvement in Efficiency of Organic Electroluminescent Devices

  5. ZnO纳米棒/有机材料异质结电致发光特性的研究

    The Electroluminescence of ZnO Nanorod / organic Material Heterostructure Devices

  6. 晶体结构对(Zn,Cd)S:Cu电致发光材料发光性能的影响

    Effect of Crystal Structure on the Photoluminescence Property of ZnS : Cu Electroluminescent Material

  7. Y2O3:Eu电致发光膜的制备与结构表征

    Preparation and Structure Characterization of Y_2O_3 : Eu Electroluminescent Phosphor Thin Film

  8. 反向偏压下ZnS(Zn,Al)蓝色电致发光二极管

    Blue electroluminescence in reverse biased zns : ( zn , al ) diodes

  9. LCD背光源用白色聚合物厚膜电致发光灯

    White Polymer Thick Film Electroluminescent Lamps for Backlighting LCDs

  10. Au/(Si/SiO2超晶格)/p型Si结构的可见电致发光研究

    A Study of Visible Electroluminescence from Au / ( Si / SiO_2 superlattices ) / p-Si Structure

  11. 一种聚噻吩(Pt)衍生物在液氮条件下的电致发光性能

    Electroluminescent Properties of a Kind of Polythiophen ( Pt ) Derivative in Liquid Nitrogen Condition

  12. 纳米硅微晶对于Er离子掺杂的SiO2薄膜的光致发光和电致发光的不同影响

    Different Effect of Nanocrystals on the Electroluminescence and Photoluminescence in Er-doped SiO_2 Films

  13. 有机电致发光过程中扩散系数的Monte-Carlo模拟

    Monte-Carlo Study of Diffusion Coefficient in Organic Light Emitting Diodes

  14. 电致发光中SiO2加速层中电子的输运特性

    The electron transport behaviour in sio_2 used in TFEL

  15. 有机电致发光器件(OLED)寿命评估装置

    Organic Light-Emitting Diodes ( OLED ) Life Expectancy Assessment Device

  16. ZnS:Mn,Cu粉末的直流电致发光(DCEL)

    Zns : mn , Cu powder direct current electroluminescence ( dcel )

  17. 用MOCVD方法制备ZnS:Mn交流薄膜电致发光显示器

    Zn : Mn Alternative Current Thin Film Electroluminescent Device Prepared by MOCVD

  18. 电致发光主要是在以ZnS等为基质的半导体材料中加入少量Cu、Mn等激活剂后在电场作用下发光。

    Electroluminescence is based on the semiconductor materials such as ZnS doped with Cu and Mn driven by electric field .

  19. LiF对柔性有机电致发光器件性能的影响

    Impact to Flexible Organic Light Emitting Devices of LiF

  20. 作为有机LED平板显示器的物质基础,电致发光(EL)材料是直接影响其器件性能的关键因素。

    As the foundation of organic LEDs , electroluminescent ( EL ) materials are one of the key factors influencing the device performance .

  21. ITO透明导电薄膜以其优良的透明导电性能在平面液晶显示(LCD)、电致发光(EC)等多个领域得到了广泛的应用。

    ITO thin films are widely used in LCD 、 EC fields because of their transparent and conductive attributes .

  22. 聚TPD电荷传输材料的制备与单层器件的电致发光

    Poly-TPD for charge transport materials and electroluminescence of single layer devices

  23. 目前平板显示领域中,有机电致发光(OLED)显示器件是国内外研究的热点之一。

    Organic light-emitting diodes ( OLED ) is a hot topic in display field .

  24. 有机电致发光(OLED)是近年来国际上的一个研究热点。

    Organic electroluminescence ( OLED ) is recently a research highlight in the world .

  25. 在真空中用共蒸发的办法制备ZnS:Cu,Nd,Cl薄膜具有良好的直流电致发光。

    Good DCEL has been observed in thin films cf ZnS : Cu , Nd , Cl prepared by co-evaporation in vacuum .

  26. 提出了如果在低电场下能够实现大量载流子在限制性Si微粒中复合,是提高多孔硅电致发光效率的一个途径。

    It is shown that the EL efficiency of PS could be improved if we could realize the carrier compound in quantum confinement Si granule at low-bias .

  27. 超声喷雾热解法生长氧化锌同质p-n结及其电致发光性能研究

    Fabrication of ZnO p-n Homojunction by Ultrasonic Spray Pyrolysis and Its Electroluminescence Properties

  28. BCP在多层有机电致发光器件中的作用

    The Role of BCP in Electroluminescence of Multilayer Organic Light-Emitting Devices

  29. 给/吸电子基团取代对PPV类电致发光聚合物光电特性的影响

    Influence of Donor / Acceptor Substitutions on the Properties of Photo-electricity in PPV-like Electroluminescent Polymers

  30. 本文综述了PPV类电致发光聚合物在分子设计与合成方面的研究进展。

    This paper summarizes the development of PPV and its derivatives in molecular design and synthesis .