发光聚合物与电源相连时能发出彩光。
Light emitting polymers emit colours when connected to an electric power source.
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.
在提高聚合物发光二极管的各项性能的进程中,电注入发光聚合物的能带工程将起着积极的作用。
During the improvement of their performance, the energy band engineering of electroluminescent polymers will take positive effect.
本文简要地介绍了电注入发光聚合物的能带的形成、表征以及能带工程在聚合物发光器件中的应用。
In this article, the formation and characterization of the energy band of electroluminescent polymers and the application...
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.
这种新型半梯形聚合物作为稳定而高效的纯蓝色电致发光聚合物材料在这一发光领域具有非常重要的应用价值。
The attractive properties of this class of new semi-ladder polymers establish them as good candidates for active materials in stable pure blue polymer light-emitting diodes.
具有9,9-二(芴基)-2,7-芴基单元的有机场致发光聚合物及使用该聚合物制得的有机场致发光装置。
Organic electroluminescent polymer having 9,9-di(fluorenyl)-2,7-fluorenyl unit and organic electroluminescent device manufactured using the same.
有机、聚合物薄膜电致发光是近几年来国际上一个研究热点。
Organic and polymer thin film electroluminescent devices have become a fascinating field in recent years.
在聚合物电致发光器件中,通过在不同功能层中掺杂二氧化钛纳米管来改善器件的性能。
The performance of polymer light-emitting diodes was optimized by dispersing titania nanotubes into different functional layers.
一种有机发光二极管,其电荷输送层中含有导电性聚合物和不饱和化合物的反应物。
A charge transport layer of an organic light emitting diode contains the conducting polymer and the reactant of the unsaturated compound.
电致发光(EL)是一种研究聚合物中陷阱特性、空间电荷的存贮和输运特性、聚合物的结构转变和分子运动的重要工具,现已获得广泛应用。
Electroluminescence (el) has been widely used as a tool to study the trap character, the charge storage and transport, the structure transformation and molecular motion in insulating polymers.
目前,聚合物发光二极管的各项性能距实际应用的要求还有相当一段距离。
Up till the present moment, the performance of polymer LEDs is far from the demands in their practical application.
各种不同发光波长、不同结构的共轭聚合物正在被源源不断地开发出来。
A variety of conjugated polymers with different light-emitting wavelengths and structures are being developed.
其中有机发光材料可分为有机小分子、聚合物分子、金属配合物和稀土配合物四类。
Organic light-emitting materials contain organic small molecule materials, polymers, metal chelates and lanthanon chelates.
本文中制备的具有梯度结构的聚合物发光器件发出光的强度,比用旋涂法和真空喷雾法所制备的单纯高分子发光器件和混合结构的高分子发光器件更高。
Compared to PLEDs composed of pure polymer or of blend active layers prepared by spin coating and vacuum spray methods, our PLED composed of gradient structure emitted brighter light.
将稀土配合物引入光响应性偶氮苯聚合物体系,有望得到可光调制发光材料。
It is high promising to prepare optical modulation emission materials by incorporating lanthanide complex into photo-responsive azobenzene-containing polymers.
并对它们的热稳定性、光致发光、电致发光以及聚合物结构和发光性能进行了系统研究。
Their thermal stability, photoluminescence(PL), electro- luminescence(EL), and the relationship between structure and properties were also studied.
聚合物电致发光器件(eld)因其具有许多无机及有机小分子ELD所不具备的优点,成为电致发光领域研究的热点。
Polymer electroluminescent devices (ELD) have aroused a great interest because of some advantages which inorganic and organic molecular ELDs don't own.
近年来,出现了两种通过在光弹性聚合物材料中添加非发光染料或发光染料的新的光弹性涂层制作方法。
In recent years, two new photoelastic coatings fabricated by adding either non-luminescent dye or luminescent dye into photoelastic polymer materials have been proposed and well developed.
聚合物发光二极管以其独有的优点在显示方面显现了光明的前景,关于它的研究也很快成为国际上竞争激烈的热点。
Light-emitting diodes(LEDs)based on polymer have attracted much interest due to their possible application as large-area light-emitting displays.
我们提供反应荧光探针和发光探针,生物素和端粒酶能够应用于标记药物小分子和生物聚合物,如蛋白、核酸以及其他碳水化合物;
Our reactive fluorescent and luminescent probes, biotins and tag enzymes are used for labeling small drug molecules and biopolymers, e. g, proteins, nucleic acids and carbohydrates;
针对聚合物发光器件目前所存在的问题,本论文的研究重点在于器件的制备工艺,并取得了一定的研究成果。
Basic research work aiming at these problems has been reported in this dissertation, especially on the research of fabrication.
针对聚合物发光器件目前所存在的问题,本论文的研究重点在于器件的制备工艺,并取得了一定的研究成果。
Basic research work aiming at these problems has been reported in this dissertation, especially on the research of fabrication.
应用推荐