磷光材料

以铱为内核的有机配合物磷光材料密度泛函理论研究

Density Functional Theory Study on Organic Complex Phosphorescent Materials with Iridium Core

一种新型磷光材料的电致发光特性研究

Study on electroluminescence characteristic of a new phosphorescent materials

红色Y2O2S：Eu~（3+）磷光材料的沉淀法制备和发光性能研究

Preparation and Characterization of Y_2O_2S : Eu ~ ( 3 + ) Phosphors by Co-precipitation Method

结果表明SrAl2O4∶Eu~（2+），Dy~（3+）磷光材料的晶体结构属于单斜晶系结构。

The results showed crystal configuration of SrAl_2O_4 : Eu ~ ( 2 + ), Dy ~ ( 3 + ) phosphor was monoclinic structure .

绿色长余辉磷光材料的研究

A Study on Phosphorescent Material with Long Green Afterglow

一种新型金属铱（Ⅲ）类配合物磷光材料的合成及性能研究

Synthesis and Properties of a Phosphorescent Iridium (ⅲ) Complex

铜（Ⅰ）配合物磷光材料的发光与光电特性的研究

The Studies on the Luminescent and Photo-electronic Performances of Cu (ⅰ) - complex Phosphorescent Materials

磷光材料钌（Ⅱ）配合物的合成及性质研究

Synthesis and Study of Phosphorescent Material Ru (ⅱ) Complexes Synthesis and Characterization on New Phosphorescent Material with Liquid Crystal

一种新型红色磷光材料的合成及光物理性能研究以铱为内核的有机配合物磷光材料密度泛函理论研究

Synthesis and photophysical properties of a new red phosphorescent material Density Functional Theory Study on Organic Complex Phosphorescent Materials with Iridium Core

另外，以磷光材料为基础制备了高效率高色纯度的红色有机发光器件，并对器件发光机理进行了研究。

Thirdly , highly efficient red OLEDs with high color purity are fabricated based on phosphorescent material and luminescent mechanism is studied .

磷光材料在发光过程中可以利用单线态和三线态激子，理论上内量子效率达到100%，这类材料的使用成为提高器件效率的主要途径之一。

The advantage of phosphorescent materials is that they can utilize both singlet and triplet exciton states which can reach 100 % internal quantum efficiency theoretically .

新型铱金属配合物磷光材料的合成、表征及光物理性能研究茂金属聚乙烯与通用型聚乙烯共混物的物理机械性能与流变行为

The Studies of Synthesis , Characterization and Photophysical Properties of New Type Iridium Complexes Mechanical properties and rheological behavior of metallocene polyethylene and conventional polyethylene blends

本研究工作为下一步全面开展宽光谱带电致磷光材料和器件的研究，获得性能优良的白色电致磷光材料奠定了良好的基础。

This investigation laid a good foundation for further studying electro - phosphorescent materials emitting with broad spectral band and their white-emitting PLEDs with excellent luminescent properties .

本文综述了以铱为内核的有机电致磷光材料的研究进展、存在问题和研究趋势，并简要介绍了用于制作有机磷光器件的主体材料。

Research advances , problems and developing tendency of organic phosphorescent electroluminescent materials with iridium core are reviewed , and the host materials for preparing devices are introduced briefly .

就有机电致发光材料而言，磷光材料与传统的荧光材料相比，它在理论上可以达到100%的内量子效率，具有广阔的发展前景。

Among the various electroluminescent materials , phosphorescent material is much more promising than the fluorescent material owing to its propability to realize a theoretical internal quantum efficiency of100 % .

其中，使用磷光材料的平板显示器件内量子效率理论上可以达到100%，比仅利用荧光材料的器件的效率高很多。

Among , take advantage of phosphorescent materials , the interior quanta efficiency of is up to 100 % , In theory , which is much higher than fluorescence materials .

由于以铱配合物为代表的重金属有机配合物作为磷光材料，能够同时利用单线态激子和三线态激子混合发光，所以其内量子效率理论上可以达到100%，从而成为人们研究的重点。

Due to metal organic complex represented by the iridium complexes as phosphorescent materials that can simultaneously use singlet exactions and triplet exactions in mixed light , so its internal quantum efficiency can reach 100 % theoretically , thus becoming the focus of study .

研究了这些磷光聚合物材料的电致发光性能，考察了载流子传输基团和磷光铱配合物含量对聚合物材料的光物理、电化学和热稳定性能的影响。

The electroluminescent properties of these phosphorescent polymers were studied , and the effect of carrier transmission groups and the content of phosphorescent iridium complex on the photophysical , electrochemical and thermal stability properties of these polymers were investigated .

溶剂对磷光上转换纳米材料性能的影响

Influence of Solvents on the Performance of Up-conversion Phosphor Nanoparticles

聚合物/磷光复合体电致发光进展基于磷光材料的有机电致白光器件的研究进展

Progress of Research of Electroluminescent Devices on Polymer / Phosphorescent Complexes Progress of White Organic Light Emitting Diodes Based on Phosphorescent Material

经过十几年的不断发展，有机电致磷光无论在理论还是器件效率等方面都获得了巨大的进步；在这发展过程当中，铱配合物是研究的最为广泛的一类高效磷光材料。

Organic phosphorescent electroluminescent have made huge progress both in theory and device efficiency after more than ten years ' development . During the course , iridium complexes is a kind of high efficient phosphorescent materials that widely studied .