它的基本结构是一块电致发光的半导体材料。
And its basic structure is an electroluminescent semiconductor materials.
报道多孔硅的表面钝化对其光致发光和电致发光的影响。
The influences of surface passivation of photoluminescence and electroluminescence properties of porous silicon have been presented.
某些材料是电致发光的,电致发光效应已经用于显示器背光的结构中。
Certain materials are electroluminescent, and this electroluminescent effect has been used in the construction of backlights for displays.
首个电致发光的产品可能是电灯泡,也许会在2012年面世,柯-苏列文博士表示。
The first electroluminescent products are likely to be light bulbs, which will probably be available from around 2012, he says.
本文对稀土配合物的发光原理、电致发光的研究现状、存在问题及应用前景作了概述。
The luminescence principle, current research situation on electroluminescence devices using rare earth complex as emitter, existing problems and potential applications are outlined.
介绍了有机电致发光器件的优点,器件的几种结构,有机电致发光的机理,以及评价有机电致发光器件的一些主要参数。
In this paper, the advantages, structures and luminescence mechanisms of the OLED were introduced, and several parameters to evaluate the OLED were presented.
该设计还包括一个线驱动操纵系统,它以电子系统取代机械流程,使用像电致发光或灵活发光二级管棒这样的低电压照明技术。
The design also includes a drive-by-wire system, which replaces mechanical with electronic systems, and low-voltage lighting technologies like electroluminescent or flexible LED strips.
此装置可以让人们有可能制造频率接近1千兆赫(10亿赫兹)的纠缠光子对电致发光二极管。
This device could make it possible to manufacture electroluminescent diodes of entangled photon pairs, with rates close to one gigahertz (in other words around on billion Hertz).
同时,利用无机纳米半导体的光导特性,这种复合体系也可以制成光导与电致发光双功能器件,且其发光效率可有较大幅度提高。
Dual functions can also be achieved with high emission efficiency by benefiting from the photoconduction of the semiconductor nanocrystal and the electroluminescence of the polymer.
红色发光材料一直是有机电致发光中较为稀缺的材料,也是电致发光全色显示不可缺少的材料。
Up to date, the red light emitting materials used in organic electroluminescence, which are highly required in full color display, remain rare.
报道了金刚石薄膜的蓝区电致发光现象,总结了几种有关金刚石薄膜蓝区发光“A”带的发光机理。
The phenomenon of the blue range electroluminescence of the boron doped diamond thin films is reported, and the several light emission mechanisms on band A are summarized.
有机电致发光器件的效率取决于电子和空穴的有效注入和复合。
Efficiency of organic electroluminescent devices depend on the injection and recombination effectively of electron and hole.
有机电致发光器件(OLED)的一个重要用途是在平板显示领域。
Organic light-emitting device (OLED) is a promising candidate for next generation flat plane display (FPD).
氧化铟锡(ito)膜的电阻率及表面粗糙度将影响有机电致发光器件(OLED)的发光效率及其使用寿命。
The resistivity and surface roughness of Indium tin oxide (ITO) films will affect the light-emitting efficiency and lifetime of the organic light-emitting diodes (OLED).
研究了不同质量比的聚苯乙烯(PS)三苯基二胺(TPD)复合空穴传输层对有机电致发光器件(OLED)性能的影响。
The effect of the composite hole transporting layer with different polystyrene (PS) -triphenyl diamine (TPD) mass ratios on the performance of organic light-emitting devices (OLEDs) was investigated.
近年来,电致发光聚合物的分子设计、合成以及聚合物发光机理和EL器件的研究成为最具有活力的领域之一。
The design and synthesis of electroluminescent polymers, luminescence mechanism and the study of el devices have been became one of the most active research fields in recent years.
为了提高有机电致发光器件的亮度,效率和寿命,通常在器件中使用多层结构。这些多层结构包括发光层及各种辅助有机层。
In order to improve its brightness, efficiency and lifetime, multi - layers framework is generally used in the devices, which includes luminescent layer and assistant organic layers.
该配合物具有很好的光致发光和电致发光性能。
This new material has good photoluminescent and electroluminescent property.
本文在简单介绍了无机电致发光光柱的结构及生产工艺的基础上,对其静态驱动显示技术进行了详细的讨论。
The paper emphasizes on the static driving and displaying technology of the inorganic electroluminescence bar graphic display, based on the simple introduction of its structure and technics.
有机电致发光因其在平板显示领域的广阔应用前景而成为重要的研究领域之一。
Organic light-emitting diode (OLED) has become an important research area due to its potential applications in flat panel displays field.
有机材料本身固有的宽谱带发射使有机电致发光器件的色度难以达到全色显示所要求的饱和色。
Due to the intrinsic broad spectra of the organic materials the chroma of the organic light emitting diode (OLED) can not meet the need of the full color display.
有机电致发光器件是近年来化学家研究的热门课题之一。
The study on Organic electroluminescence devices (OELDs) have become one of the fascinating fields recently.
利用纳米半导体的高电荷输运性,也可以增强电致发光聚合物发光层的效率。
Meanwhile, the inorganic semiconductors with high-charge transporting abilities could enhance the emission efficiency of the electroluminescent polymer emitter.
有机电致发光器件(OLED)的量子效率是衡量器件发光性能的一个非常重要的参数。
The quantum efficiency of organic light emitting diodes (OLED) is an extraordinary factor of devices luminescence performance.
有机电致发光器件的电极修饰可以提高器件的发光效率、寿命和稳定性。
The luminescence efficiency, life time and stability of organic electroluminescence devices (OELDs) can be improved significantly by modifying the electrodes of OELDs.
计算并讨论了离化距离对器件复合效率以及注入和复合对器件电致发光效率的影响。
By simulation, the influence of disassociated distance on recombination efficiency and the influence of injection and recombination on EL efficiencies are thoroughly studied.
提出了一种提高金刚石薄膜电致发光器件发光强度的方法。
The method to increase the intensity of the blue light emission from the diamond films devices is suggested.
采用新合成的有机材料硅烷衍生物作为发光物质制备了发蓝、绿光的薄膜电致发光器件。
The organic thin film electroluminescence device with blue green color using new organic material, silicon alkyl derivative (SCS SiH), was fabricated.
采用新合成的有机材料硅烷衍生物作为发光物质制备了发蓝、绿光的薄膜电致发光器件。
The organic thin film electroluminescence device with blue green color using new organic material, silicon alkyl derivative (SCS SiH), was fabricated.
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