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Preparation and elements analysis of porous fluorescent glasses

Preparation and elements analysis of porous fluorescent glasses
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摘要 A large variety of porous fluorescent glasses were prepared and the concentration of different elements in these glasses was analyzed. The start porous glasses were soaked in a solution containing soluble salts and then heated at 650 ℃ for 3 h to decompose the salts in the pores into oxides. Fluorescent agents, such as UO3, Eu2O3, were impregnated into the porous glasses to prepare the fluorescent glasses. The results show that soaking is a feasible method to prepare the glass sphere with compositions distinguishable from each other and easy to be located in a complicated background. Six or more components can be impregnated together into one glass sample and the concentration of them can be analyzed accurately. UO3 and Eu2O3 can be impregnated into porous glass to make the glass strongly fluorescent. Higher concentration of Eu2O3 produces stronger fluorescence while higher concentration of UO3 reduces the fluorescence intensity because of the concentration quenching effect. A large variety of porous fluorescent glasses were prepared and the concentration of different elements in these glasses was analyzed. The start porous glasses were soaked in a solution containing soluble salts and then heated at 650 ℃ for 3 h to decompose the salts in the pores into oxides. Fluorescent agents, such as UO3, Eu203, were impregnated into the porous glasses to prepare the fluorescent glasses. The results show that soaking is a feasible method to prepare the glass sphere with compositions distinguishable from each other and easy to be located in a complicated background. Six or more components can be impregnated together into one glass sample and the concentration of them can be analyzed accurately. UO3 and Eu203 can be impregnated into porous glass to make the glass strongly fluorescent. Higher concentration of Eu203 produces stronger fluorescence while higher concentration of UO3 reduces the fluorescence intensity because of the concentration quenching effect.
作者 朱冬梅 罗发 周万城 D.E.DAY C.S.RAY
机构地区 State Key Laboratory of Solidification Processing Graduate Center for Materials Research
出处 《中国有色金属学会会刊:英文版》 CSCD 2006年第B01期79-81,共3页 Transactions of Nonferrous Metals Society of China
关键词 多孔荧光玻璃 制备 元素分析 发光性质 可变成分 fluorescent glasses porous fluorescent properties variable composition
分类号 TQ171 [化学工程—玻璃工业]
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参考文献10

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中国有色金属学会会刊:英文版
2006年 第B01期

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