1) preparation of phosphor layer
荧光粉层制备
2) phosphor layer
荧光粉层
1.
New method to form phosphor layer on the surface of LED chip
LED芯片表面制备荧光粉层的新方法
2.
The importance of the printing process in PDPs is described in the paper, and the process for barrier ribs, phosphor layer and addressing electrodes is described in detail.
本文介绍印刷技术在 PDP中的重要性 ,具体介绍用印刷法制造隔栅 ,荧光粉层和选址电极。
3) conformal flat phosphor coating
平面荧光粉层
4) phosphors
荧光粉
1.
Synthesis of (Ce_(0.67)Tb_(0.33))MgAl_(11)O_(19)phosphors by sol-gel process and its luminescent properties;
(Ce_(0.67)Tb_(0.33))MgAl_(11)O_(19)荧光粉的溶胶-凝胶法合成及发光性能
2.
Luminescent properties of hexaaluminate phosphors;
六铝酸盐基荧光粉的发光性能
3.
Problems and Solutions of Cathode-ray Phosphors for Projection Tubes;
投影管用荧光粉的问题及进展
5) phosphor powder
荧光粉
1.
The optimized design of promoting the lightness of CaAl_2O_4:Eu~(2+),Nd~(3+) phosphor powder;
提高CaAl_2O_4:Eu~(2+),Nd~(3+)荧光粉发光亮度的优化设计
2.
In this article,Y_2O_3:Eu~(2+) phosphor powder is synthesized by self-reduction and oxidation of oxalicates that prepared by oxalic acid co-precipitation method,in which Y_2O_3 is the host material and Eu~(2+) is the photoluminescent center.
采用草酸共沉淀法,利用草酸盐的自氧化还原,制得了以Y2O3为基质及Eu2+为发光中心的荧光粉Y2O3:Eu2+。
3.
Cubic crystal phase Eu:Y2O3 phosphor powder were obtained at 500℃ for 2 h directly.
研究了前驱体在不同的煅烧温度下的物相变化,结果表明,前驱体在500℃保温2h即可直接生成立方相的Eu:Y2O3,在1000℃保温2h的条件下得到了结晶度高、分散性好、平均粒径为50~60nm、近球形的纳米Eu:Y2O3荧光粉。
6) fluorescent powder
荧光粉
1.
Research and prospect for preparation technology of rare earth fluorescent powder;
稀土荧光粉的制备技术研究与展望
2.
The fluorescent paper was prepared by adding the fluorescent powder (rare earth Eu3+polymer complex) into the pulp,the relative fluorescent strength of the fluorescent powder and the fluorescent paper was measured by using the instrument RF-5301PC.
将荧光粉(稀土铕有机配合物)与纸浆混合抄造出荧光纸张,并分别对荧光粉和荧光纸张的相对荧光强度进行定量测定,探讨了纸张相对荧光强度的定量测定技术。
3.
Nano fluorescent powder of Y 4Al 2O 9: Eu 3+ is synthesized by sol gel method.
用溶胶 -凝胶法 (sol gel)制备了纳米荧光粉Y4Al2 O9:Eu3 + ,用X射线粉晶衍射对其进行了物相鉴定 ,表明在 90 0℃已经得到纯相的Y4Al2 O9产物 ,并用透射电镜对其进行形貌和衍射分析 ,分析结果证明得到的产物为纳米粉末态晶体 ,产物Y4Al2 O9:Eu3 + 粒径均匀 ,大致在 2 0~ 5 0nm之间 ,平均粒径为 30nm 。
补充资料:高压荧光灯用荧光粉
分子式:
CAS号:
性质:高压荧光灯中涂上Eu3+激活的钒酸钇或钒磷酸钇(YVO4:Eu,Y(V,P)O4:Eu),可提高光效,改善显色性,增加了灯中的红色比和显色指数。YVO4白色立方晶体耐温度猝灭,发光效率高,传递效率大,高压荧光汞灯主要用于街道,厂房和场地照明。
CAS号:
性质:高压荧光灯中涂上Eu3+激活的钒酸钇或钒磷酸钇(YVO4:Eu,Y(V,P)O4:Eu),可提高光效,改善显色性,增加了灯中的红色比和显色指数。YVO4白色立方晶体耐温度猝灭,发光效率高,传递效率大,高压荧光汞灯主要用于街道,厂房和场地照明。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条