1) Substrates of Fluorescent Materials
荧光材料基质
2) fluorescence material
荧光材料
1.
Synthesis and characterization of new fluorescence materials of rare earth;
新型稀土荧光材料的合成及表征
2.
Preparation and characterization of a new fluorescence material;
新型荧光材料的合成与表征
3.
Preparation and characterization of a new fluorescence material C_(14)H_(12)N_4O_2Zn·2H_2O;
新型荧光材料二水合-[N,N,-双(2-苯胺基)乙二酰胺]合锌的合成与表征
4) fluorescent materials
荧光材料
1.
The preparation and application of rare earth complexes and co-polymers were discussed,the latest progress in the research on fluorescent polymers containing rare earth elements were reviewed,and the prospects for application of the fluorescent materials containing rare earth polymers were also mentioned.
对近10年来含稀土高分子荧光材料的研究成果进行了分析归纳,讨论了稀土配合物/聚合物制备和应用情况,综合评述了国内外稀土高分子荧光研究的最新进展,展望了稀土高分子荧光材料应用前景。
5) fluorescent material
荧光材料
1.
A kind of new type fluorescent material with Ga,P and Cl elements was synthesized in the organic solvent under the constant pressure.
以Na3P和GaCl3为原料,在常压条件下的有机溶剂中合成出一种荧光材料。
2.
The combination of total spectral radiance factors and the radiance characteristics of fluorescent materials is described.
介绍荧光材料发光的辐射特性及总光谱辐亮度因数的组成,对单单色仪法及双单色仪法测量荧光样品进行比较分析。
6) phosphor
[英]['fɔsfə] [美]['fɑsfɚ]
荧光材料
1.
Luminescence properties of Ba_3MgSi_2O_8:Eu~(2+),Mn~(2+) full-color phosphor excited by near-UV light;
近紫外光激发的Ba_3MgSi_2O_8:Eu~(2+),Mn~(2+)全色荧光材料的发光性质研究
2.
By applying combustion process with urea as the fuel, the precursor powders of the phosphor were obtained.
对前驱粉末热处理后,合成了YAG:Tb荧光材料。
3.
The trivalent samarium doped Sr_2CeO_4 color-tunable phosphors were successfully synthe- sized by solid state reaction at 1200℃for 6h and their luminescent characteristics were studied.
以具有一维结构的Sr_2CeO_4化合物为研究对象、Sm~(3+)作为发光中心,探索了其作为LED用荧光材料的可能性。
补充资料:荧光标识材料(fluores-cent marking material)
分子式:
CAS号:
性质:又称荧光标识材料(fluores-cent marking material)。利用特殊的荧光染颜料印制的防伪标识物。这类标识材料在紫外光的激发下能发出特定波长的可见光,可以用肉眼或仪器鉴别真伪,比一般的荧光防伪材料更具保密性。
CAS号:
性质:又称荧光标识材料(fluores-cent marking material)。利用特殊的荧光染颜料印制的防伪标识物。这类标识材料在紫外光的激发下能发出特定波长的可见光,可以用肉眼或仪器鉴别真伪,比一般的荧光防伪材料更具保密性。
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