有机电致发光材料

由以上可见Be（BTZ）2是一种性能优良的蓝光有机电致发光材料。

It is demonstrated that Be ( BTZ ) 2 is a good blue light fluorescent material and expected to be applied in blue-light OLED by reasonable designing .

作为有机电致发光材料，8-羟基喹啉铝也显示出比较广阔的应用前景。

As OLED materials , 8-hydroxyquinoline aluminum also demonstrates quite broad application prospects .

Zn（BTZ）2白色有机电致发光材料的合成及其器件制备

Synthesis of Zn ( BTZ ) _2 and Fabrication of White Organic Light-emitting Devices

比较香豆素C6和Ir（C6）2（acac）固体材料的光致发光谱，可见Ir（C6）2（acac）明显抑制了有机电致发光材料分子与分子之间的发光猝灭效应。

Comparing the photoluminescence spectra of solid C 6 and Ir ( C6 ) _2 - ( acac ), the self-quenching effect of molecules was found to be suppressed obviously .

两种新型的PPV衍生物改善了PPV的光学性能和热稳定性，更重要的是它们是一种新型蓝光有机电致发光材料。

The new type organic electroluminescent materials have excellent performance in the luminescent properties and thermal stability , more than that is we get a novel blue light-emitting material .

由于有机电致发光材料（OLED）在全彩色、平板显示方面的应用前景，以及作为一个令科学界感兴趣的课题，已经引起了人们极大的关注。

Organic light-emitting-diodes ( OLED ) materials have attracted a great deal of attention , due to their promising applications in full-color , flat-panel displays as well as being a standpoint of scientific interest .

从分子角度分析了两类取代基咔唑衍生物在有机电致发光材料中的不同作用原理，通过SN1反应机理，采用不同的实验条件，合成了5种N-取代基咔唑衍生物，获得较好的收率。

The role of N-substituted carbazole derivatives of Organic Light-emitting Diodes is analyzed based on the different substituted groups .

一种简便测定有机电致发光材料能级的电化学方法

Convenient Electrochemical Method to Determine the Energy Level of Organic Electroluminescent Materials

8-羟基喹啉硼及其衍生物作为有机电致发光材料的理论研究

Theoretical study on the 8-hydroxyquinoline boron compounds and their derivatives for OLEDs

高性能有机电致发光材料的制备及器件研究

A Research of High-performance Organic Electroluminescent Materials and Devices

咔唑衍生物在有机电致发光材料中的研究进展

Research progress of carbazole derivatives as organic electroluminescent materials

多功能有机电致发光材料的理论研究

Theoretical Investigations on the Multifunctional Organic Light-Emitting Materials

新型红色有机电致发光材料

A novel red light-emitting material for organic electroluminescence

两种蓝色有机电致发光材料

Two Kinds of Blue Organic Light Emitting Materials

有机电致发光材料的研究进展及应用

Development and application of organic electroluminescence materials

基于含氮五元杂环铱配合物有机电致发光材料的合成及性能研究

Synthesis and Performance of Some Novel Ir-containing Organic Light-emitting Diodes Based on Nitrogen Containing Five-member Heterocyclic Compounds

该研究为有机电致发光材料的分子结构设计提供了理论依据。

All these investigations will provide a theoretical basis for the molecular structure design of organic electroluminescent materials .

有机电致发光材料是平板显示领域最有发展前景的材料之一。

Organic electroluminescent ( EL ) material is one of most prospective display materials in flat panel display .

单分子逻辑门的模拟与简化器件结构的有机电致发光材料研究

Mimicking of a Single Molecular Logic Gate and Investigation of Organic Light Emitting Material for Simplified OLED Architecture

有机电致发光材料是光电信息功能材料领域的研究热点之一。

The research progress of thiophene compounds in photoelectric materials such as electroluminescence materials and photosensitizers was summarized .

本文对卟啉及其金属配合物在有机电致发光材料方面的研究做了综述。

In this paper , porphyrins and their metallic complexes as organic light-emitting diodes ( OLED ) are reviewed .

文章简要的介绍了有机电致发光材料的研究历程，着重对红色有机电致发光材料进行了描述。

The article briefly introduced the research progress of organic electroluminescent materials and centred on the red light-emitting materials .

本论文研究了一系列适用于溶液法器件制备的新型有机电致发光材料的器件性质。

In this thesis a series of new electroluminescent materials which are suitable for solution processible device preparation have been studied .

这些化合物作为有机电致发光材料显示了比较高的效率，好的热稳定性和好的成膜性等优点，是一类较好的发光材料。

As organic electroluminescent materials , these compounds showed relatively high efficiency , good thermal stability , and good film-forming properties .

有机电致发光材料由于其独特的优势而受到广泛关注。

Due to the unique advantages of the organic light-emitting materials , it has attracted a great deal of research attention .

然而对于光电材料而言，特别是有机电致发光材料的π电子体系和分子间的π&π相互作用对材料的载流子传输性能的影响应该引起我们的关注。

In particular , organic π - electron systems and the intermolecular π & π interaction have received attention as optoelectronic materials .

红色有机电致发光材料分为：有机小分子发光材料、有机金属配合物材料和有机聚合物发光材料三大类。

Organic red emitters was divided into three types : organic small molecular luminescent materials , transition metal complexes , and organic oligomers .

这其中一个重要原因就是有机电致发光材料的性能，它在很大程度地影响了器件产业化的进程。

One of the important reasons is the properties of organic electroluminescent materials , which affect the process of industrialization of OLEDs largely .

有机电致发光材料由于具有高发光效率，亮度和颜色可调，易加工成膜等优良特性，引起了人们的极大兴趣。

Organic and polymer electroluminescence materials have attracted much interest because of its high luminescence efficiency , full color , processable and so on .

按照功能可分为有机电致发光材料、光折变材料、太阳能电池材料、导电材料、光敏材料、能量转换材料等。

According to their functions , they can be classified into organic electroluminescent , photorefractive , solar cell , conductive , photosensitizer materials and so on .