gap:sm粉红色荧光粉的制备.zip

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gap:sm粉红色荧光粉的制备,包括开题报告,任务书,ppt,翻译原文和译文摘要iabstracti1 引言12 实验方法32.1 实验原料42.2 性能测试42.3 实验方法43 实验结果和讨论53.1 钙钛矿型钆铝酸盐的合成53.1.1 钆铝酸盐粉体最佳煅烧温度分析53.1.2 柠檬酸盐-硝酸盐燃烧法73.2 光谱分析94 结论115 参考文献1...
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分类: 论文>材料科学论文

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包括开题报告,任务书,ppt,翻译原文和译文

摘要 I
Abstract I
1 引言 1
2 实验方法 3
2.1 实验原料 4
2.2 性能测试 4
2.3 实验方法 4
3 实验结果和讨论 5
3.1 钙钛矿型钆铝酸盐的合成 5
3.1.1 钆铝酸盐粉体最佳煅烧温度分析 5
3.1.2 柠檬酸盐-硝酸盐燃烧法 7
3.2 光谱分析 9
4 结论 11
5 参考文献 11
致谢 14


GAP:Sm粉红色荧光粉的制备

摘 要
采用柠檬酸盐—硝酸盐燃烧法制备钐掺杂钙钛矿型钆铝酸盐荧光粉体(GdAlO3:Sm),并对GdAlO3:Sm3+粉体进行发光性能测试。测试时主要手段有:X射线衍射分析(XRD)、热分析(TG-DSC)、荧光光谱分析(PL)和紫外激发照相。
实验结果表明:由柠檬酸盐-硝酸盐所制得凝胶,在400℃预烧凝胶1h得到前驱粉体,将所得粉体研磨后,在900℃高温煅烧2h可以得到平均粒径为1.80um单相GdAlO3粉末,且预烧后煅烧前的研磨可以有效降低粉末粒径。GdAlO3:Sm荧光粉,在365nm紫外灯照射下呈现明亮粉红色;在254nm、296nm、402nm激发下,发射粉红色荧光(其中4G5/2–6H7/2发射峰强度最大,对应602nm);当掺杂浓度达到7%时,发光强度达到最大。
关键词:柠檬酸盐—硝酸盐燃烧法;钆铝酸盐;荧光粉;钙钛矿结构;钐


The fabrication of GAP:Sm pink phosphor
Abstract
The citrate-nitrate combustion method was used to prepare the Sm-doping perovskite gadolinium aluminate phosphor (GdAlO3:Sm), and the phophor’s luminescent property was detected. X-ray diffraction analysis (XRD), fluorescence spectroscopy (PL) and UV photograph were the main analysis methods.
Experimental results showed: GdAlO3 single phase powder could be fabricated at 400℃ for 1h then at 900℃ for 2h by the precursor powder which was made by citrate-nitrate combustion method. The final powder size is 1.80um. The grinding after 400℃ for 1h and before final annealing would reduce the powder size greatly. GdAlO3:Sm emitted bright pink luminescence under 365nm UV light. Under 254nm, 296nm, 402nm excitation, the phosphor would emit pink luminescence with the peak at 602nm, respect to Sm3+ 4G5/2–6H7/2 electronic transition; the most suitable doping amount for Sm3+ in GdAlO3 matrix is 7% atomic ratio.
Keywords: the citrate-nitrate combustion method, gadolinium aluminate, phosphors, perovskite, Sm