Combustion Synthesis of Long Afterglow luminescent Materials Sr_(2-x)Ca_xMgSi_2O_7:Eu~(2+), dy~(3+)

机译：燃烧合成长余辉发光材料SR_（2-x）CA_XMGSI_2O_7：EU〜（2+），DY〜（3+）

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Long afterglow luminescent materials Sr_(2-x)Ca_xMgSi_2O_7:Eu~(2+), dy~(3+) (x=0-1.955) was synthesized by combustion method and characterized by X-ray diffraction, fluorescence spectrum and so on. Its preparing process conditions, the effect of Ca~(2+) replacing Sr~(2+) on its Luminescent performance were discussed. The results show it has a single phase and foamy structure, which is easy to be grinded into superfine powders. Its Luminescent property is importantly affected by water dosage(R= n_(H_2O)/n_(TEOS)), reducer dosage (H=n_(reducer)/n_(nitrate)), gel grain dosage, gel grain size, arousing-burning temperature and burning time. Its best preparing process conditions are determined. A small quantity of Ca~(2+) replacing Sr~(2+) can raise its luminescence performance. Increasing Ca~(2+) content, its emission peak gradually wave to the long wave traverse, its luminous colors change from blue to yellow. Compared with the sample synthesized by high temperature solid reaction, the emission peaks of the sample synthesized by combustion method distinctly take place red shift.

机译：长余辉发光材料SR_（2-X）CA_XMGSI_2O_7：EU〜（2+），通过燃烧方法合成DY〜（3+）（X = 0-1.955），其特征在于X射线衍射，荧光光谱等。其制备过程条件，讨论了替代Sr〜（2+）对其发光性能的影响。结果表明它具有单相和泡沫结构，易于研磨成超细粉末。其发光性质主要受水剂量的影响（R = N_（H_2O）/ N_（TEOS）），减速剂剂量（H = N_（REDUCER）/ N_（硝酸盐）），凝胶晶粒剂量，凝胶晶粒尺寸，唤起燃烧温度和燃烧时间。确定其最佳准备过程条件。少量的CA〜（2+）更换SR〜（2+）可以提高其发光性能。增加Ca〜（2+）含量，其发射峰值逐渐波到长波横穿，其发光颜色从蓝色变为黄色。与由高温固体反应合成的样品相比，通过燃烧方法合成的样品的发射峰明显发生红移。

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《International Conference on Advanced Engineering Materials and Technology》|2011年||共4页
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作者
Yongqiang Zhou; Yiguang Tian; Heshan Ying;
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中图分类 TB3-532;
关键词
Silicate; Long Afterglow; Luminescent Materials; Combustion Method;

机译：硅酸盐;余辉长;发光材料;燃烧方法;

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1. Luminescent properties of blue-emitting long afterglow phosphors Sr_(2-x)Ca_x MgSi_2O_7:Eu~(2+), Dy~(3+) (x = 0, 1) [J] . Y. Chen, B. Liu, M. Kirm, Journal of Luminescence . 2006,第1期

机译：发出蓝光的长余辉荧光粉Sr_（2-x）Ca_x MgSi_2O_7：Eu〜（2+），Dy〜（3+）（x = 0，1）
2. The luminescent properties of the substitution of Ho~(3+) for Dy~(3+) in the M_2MgSi_2O_7: Eu~(2+), Dy~(3+) (M: Sr, Ca) long afterglow phosphors [J] . Haoyi Wu, Yihua Hu, Yinhai Wang, Materials Science and Engineering . 2010,第3期

机译：M_2MgSi_2O_7：Eu〜（2+），Dy〜（3+）（M：Sr，Ca）长余辉荧光粉中Ho〜（3+）取代Dy〜（3+）的发光特性
3. Characterization of Luminescent and Thermal Properties of Long Afterglow SrAlxOy:Eu~(2+),Dy~(3+) Phosphor Synthesized by Combustion Method [J] . D B. Bern, H.C. Swart, A.S. Luyt Polymer Composites . 2011,第2期

机译：燃烧法合成长余辉SrAlxOy：Eu〜（2 +），Dy〜（3+）荧光粉的发光和热学性质
4. Combustion Synthesis of Long Afterglow luminescent Materials Sr_(2-x)Ca_xMgSi_2O_7:Eu~(2+), dy~(3+) [C] . Yongqiang Zhou, Yiguang Tian, Heshan Ying International Conference on Advanced Engineering Materials and Technology . 2011

机译：燃烧合成长余辉发光材料SR_（2-x）CA_XMGSI_2O_7：EU〜（2+），DY〜（3+）
5. Preparation of rare earth (europium(3+), terbium(3+), thulium(3+), and ytterbium(3+)) doped yttrium oxide luminescent ceramics by the use of reverse micelles. [D] . Corral, Jessica Olga. 2005

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6. Sol–Gel Synthesis of CaTiO3:Pr3+ Red Phosphors: Tailoringthe Synthetic Parameters for Luminescent and Afterglow Applications [O] . Daniela Meroni, *, Luca Porati, 2017

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Combustion Synthesis of Long Afterglow luminescent Materials Sr_(2-x)Ca_xMgSi_2O_7:Eu~(2+), dy~(3+)

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