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.
有机薄膜层的结晶是有机电致发光器件衰减的主要机理之一。
Crystallization of organic thin films is one of the main degradation mechanisms of organic light emitting diodes (OLEDs).
本发明的有机材料在有机电致发光器件中可用作电子传输层。
The organic material of the invention can be used as an electron transport layer in the OELD.
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.
综述了有机电致发光器件中阴极界面修饰的材料、方法和分类。
Materials, methods and classification of interfacial modification of cathodes in organic electroluminescent devices were reviewed in this paper.
本文综述了有机电致发光器件中阳极界面修饰的基本特征和类型。
Essentials and types of interfacial modification of anodes in organic electroluminescent devices are summarized in this paper.
本发明涉及一种新型化合物和包含该化合物的有机电致发光器件。
The invention relates to a new compound and an organic electroluminescent device containing the compound.
利用真空蒸镀方法,在PET柔性衬底上制备了有机电致发光器件。
The organic light-emitting devices (OLEDs) were fabricated by vacuum evaporation method on PET flexible substrate.
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).
介绍了有机电致发光器件(OLED的历史,结构,材料及制作工艺;
Research advances on organic light-emitting devices(OLED) are reviewed. OLED"s history, structure, materials and manufacturing are introduced."
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.
本发明为一种有机电致发光器件,尤其涉及一种有机电致白光器件的发光层结构。
The invention relates to an organic electroluminescence device, in particular to a luminous layer structure of an organic white light emitting device.
有机电致发光器件具存低压驱动、高亮度、高效率以及能实现大面积彩色显示等优点。
Organic electroluminescent devices have such advantages as low-voltage driving, high luminosity, high efficiency and large-area color display which can be realized.
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.
本论文工作主要包括有机电致发光器件的制作及其一系列电学、光学性能的测试和分析。
This thesis mainly discussed the OLED's fabrication and a series of characteristics on electronic and optical property.
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.
本发明涉及新颖的有机电致发光化合物和使用该化合物作为电致发光材料的有机电致发光器件。
The present invention relates to novel organic electroluminescent compounds, and organic electroluminescent devices employing the same as electroluminescent material.
图4、有机电致发光器件的电压-亮度关系曲线图5、有机电致发光器件的电压-效率关系曲线。
Fig. 4 Relationships of brightness-voltage of organic Fig. 5 Relationships of efficiency-voltage of organic light-emitting device. Light-emitting device.
论文先回顾了有机电致发光器件的历史进展、介绍了器件结构、有机材料、发光机理、研究热点及应用前景。
At first, the thesis reviewed the histories and described structures, organic materials, hotspot, foreground of organic Light-Emitting Devices.
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).
具有窄带发射的稀土配合物发光材料,因其具有高荧光量子效率,高色纯度等特点,被用于制备有机电致发光器件。
Rare earth complex materials have been widely used in organic electroluminescence devices because of their high photoluminescence quantum efficiencies, narrow emission spectra and high color purity.
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.
以陷阱电荷限制传导理论为基础,用数值方法研究了单层有机电致发光器件发光层中电势、电场和载流子密度的空间分布。
The electrical potential, field and carrier density in emission layer of single layer organic light-emitting devices are numerically studied based on the trapped charge limited conduction theory.
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.
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.
有机电致发光(OELD)是近年来国际上的一个研究热点。有机电致发光器件具有低压驱动、高亮度、高效率以及能实现大面积彩色显示等优点。
Organic electroluminescent devices (OELD) have such advantages as low-voltage driving, high luminosity, high efficiency and large-area color display which can be realized.
摘要 :采用直接光强调制的方法,建立了一种新型有机电致发光器件(OLED)的光电信号传输体系,研究了发光层掺杂、发光面积和预置电压对OLED响应速度的影响。
Abstract : A new type of optical signal transmission system based on organic light-emitting devices (OLED) has been investigated using direct light intensity modulation method.
将稀土配合物应用于有机电致发光显示器件(OLED)对于实现全彩色显示具有重要意义。
The application of rare earth complexes in organic light emitting diode (OLED) is very significative for realizing full color display.
新型红色有机电致发光材料的研究和开发对有机发光器件的全彩色平板显示具有重要意义。
It is vitally important to research the red emitting materials for developing full-color display of OLEDs.
新型红色有机电致发光材料的研究和开发对有机发光器件的全彩色平板显示具有重要意义。
It is vitally important to research the red emitting materials for developing full-color display of OLEDs.
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