稀土发光材料

稀土发光材料的应用一直是重点的高新技术领域，在照明、显示、信息传递等领域都有广泛的应用。

The application of Rare Earth Luminescent Materials has been the focus in high-tech fields , such as lighting , display , messaging and so on .

稀土离子特殊的电子构型、丰富的电子能级使稀土发光材料在信息显示、照明等领域有着重要应用。

Rare earth luminescent materials have been widely used in information display and green lighting due to its special electronic structure and profuse energy levels .

当代研究稀土发光材料的热点是掺有Eu元素的红色发光荧光材料。

Contemporary studies of rare earth luminescent material is concentrated on the red light-emit fluorescent materials mixed with element Eu .

制备了掺有稀土发光材料的高折射率玻璃微球，并用XRD、SEM等进行了表征。

Glass microspheres doped with rare earth elements were prepared and characterized by powder X ray diffraction ( XRD ), scanning electron microcopy ( SEM ), and Raman spectrum and so on .

对稀土发光材料稀土三基色荧光粉、计算机显示器和投影电视用粉、PDP用荧光粉的物化性能、合成方法、材料回收以及纳米材料的研制等作了简要论述。

The paper describes the physical and chemical property , synthesis and development of RE luminescent material , RE_ 3 - primary colored fluorescent powder , fluorescent powder for computer display and projection TV set and PDP and nanometer material are also introduced .

氧化锌基红色稀土发光材料的制备研究

The Study on the Preparation of the ZnO-based Red Luminescence Material

新型长余辉稀土发光材料发光特性探讨显像管磷光体材料荧光粉色度的分光测定法

Discussion of luminescent characteristics of long - afterglow phosphor material

稀土发光材料燃烧合成的研究进展

Progress in Combustion Synthesis of Rare Earth Luminescence Materials

采用溶胶-凝胶法制备硅铝二元膜包覆稀土发光材料。

The rare-earth luminescent materials coated with Si and Al were prepared by the sol-gel route .

介绍了同步辐射用于稀土发光材料研究的基本概况。

A summary about Synchrotron Radiation ( SR ) application on rare earth luminescence materials is presented .

本文对高温球磨法、稀土发光材料的制备及性质方面的研究作了阐述。

The preparation and properties of rare earth phosphors and high temperature ball milling method were also reviewed .

本文对新型长余辉稀土发光材料在不同照度，不同激发时间等多种条件下的发光特性进行了检测，并对检测结果进行了分析讨论。

Discussion and analysis to the result of measurement of luminescent characteristics of long-afterglow phosphor material under multi-illuminance and multi-stimulation .

Y2O3：Eu3+是一种性能优良的稀土发光材料，其发光效率高且有较高的色纯度和光维持特性。

Y2O3 : Eu3 + is an excellent rare-earth luminescent materials , which have high luminous efficiency and color purity .

新的稀土发光材料的不断涌现，随之也出现了一些新的合成方法，以进一步提高发光材料的性能。

It appears some new synthesized methods to effectively improve the luminescent property with the new luminescent materials of the rare earth come forth .

随着纳米技术的进步、发光机理的进一步深入研究，钒稀土发光材料也将步入新的发展阶段。

The vanadium rare earth luminescent material will step further into a new development phase with the progress of nanotechnology and in-depth research of luminescent mechanism .

稀土发光材料在固体照明，平板显示，激光器及生物标记领域有着广泛的应用。

Rare earth luminescence materials are widely used in the fields of solid-state lighting , flat panel display , catalysis , laser devices and biological labeling .

概述了纳米稀土发光材料具有的、为传统发光材料无法媲美的5个光学特性，介绍了纳米稀土发光材料的软化学制备方法。

Five optical characteristics that are much more excellent than traditional luminescent materials and the soft chemical preparation methods of nanoscale luminescent materials of rare earth were summarized .

稀土发光材料在很多领域有巨大的应用价值，如照明、成像显示、辐射探测、应急指示、建筑装饰和工艺美术等领域。

Rare-earth luminescent materials have been widely used in various fields , such as lighting , imaging display , radiation detection , emergency instructions , architectural and arts and crafts , and other fields .

稀土发光材料具有发光亮度高、余辉时间长、发射光波长可调、无辐射无污染等优异性能特点，是新一代的发光材料，成为了目前国内外发光材料的研究热点。

Owning to the properties of high brightness , long afterglow , adjustable wavelength scale and non-radiation substance , more and more attention is paid to the studies of rare earth ion activated luminescence material .

稀土发光材料因其独特的发光性能在颜色显示、照明和防伪等领域有着广泛的应用，始终是材料学和物理学的一个研究热点。

Luminescent materials doped with rare earth , which are widely applied in the fields of color display , lighting and anti-counterfeiting and so on , are one of hot research topics among materials and physics .

纳米级稀土发光材料的性质在很大程度上取决于其结构、形貌以及尺寸，因而合成出形貌和尺寸可控的纳米发光材料，成为科学工作者研究的热点。

The properties of rare earth luminescent nano-materials largely depend on their structure , morphology and size . Therefore , the synthesis of luminescent nano-materials with controlled morphology and size has also aroused a lot of concern from the scientists .

稀土无机发光材料CaS：Eu，Cl的过程优化和在农膜上的应用原理

Process Optimization and Application Principle of Rare Earth Inorganic Luminescent Material CaS : Eu , Cl in Farm Film

本文报道了无保护气氛条件下碳还原硫酸钙方法合成适用于光转换农膜的CaS：Eu，Cl稀土无机发光材料。

The red luminescent material CaS : Eu , Cl applied to the light transition film for farm was prepared by reduction of calcium sulfate in carbon powder under no protective atmosphere ( N2 ) and reducing gas ( H2 or CS2 ) .

稀土高分子发光材料研究的新进展

New Progress of the Luminescent Materials of Rare Earth Polymer

本文阐述了稀土氟化物发光材料的特点、发光机理及发光性质。

The thesis showed the feature , luminescence mechanism and properties of rare earth fluoride materials .

本文的研究内容如下：1、结合离子液体和水热法的优点，得到了一种简便、绿色的合成稀土氟化物发光材料的方法，即离子液体辅助水热法。

Combining the advantages of Ionic liquids and hydrothermal method , a novel and easy synthesis-ionic liquids assisted hydrothermal process is reported .

氟氧化物玻璃声子能量低，化学稳定性好，可以作为理想的稀土发光基质材料。

Oxyfluoride glass has low phonon energy and high chemical stability , thus can be used as an ideal rare earth luminescent matrix material .

制备出发光强度高、成本低、加工性能优良的稀土高分子发光材料有助于解决这些问题。

The manufacture of the rare earth polymer luminescence materials with high luminescence intensity , low cost and good process property will be helpful to solve these problems .

稀土纳米发光材料表现出了诸多异于传统体相发光材料的特点，具有潜在的高量子发光效率和高分辨率等诱人的前景。

Rare earth luminescent materials have shown a lot of characteristic different from the tradition of the bulk light-emitting materials , and possessed potentially high quantum luminescence efficiency and resolution .

本文对具有多种拓扑结构的介孔稀土复合发光材料进行了研究和性能的比较，希望为稀土材料的多功能化制备做些有益的工作。

In this thesis , the rare earth materials with multiple topological mesostructures have been studied and compared in the luminescent properties , which is very meaningful for the preparation and utilization of multi-functional rare earth materials .