Preparation of Orange-Red Long Afterglow Phosphors Y2O2S: Sm3+ , Mg2+ , Ti4+

机译：橙红色长期磷光体的制备Y2O2S：SM3 +，Mg2 +，Ti4 +

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The orange-red long afterglow phosphors Y2O2S:Sm3+, Mg2+, Ti4+ was prepared by high temperature solidstate method. By XRD analysis, the crystal phase of the sample was Y2O2S, belonging to hexagonal system, and no new crystal phase arose when doping Sm3+, Mg2+, Ti4+ . The characteristic peaks of excitation spectrum were located at 373,388,417, 430, 475 and 491 nm, and the characteristic peaks of emission spectrum were located at 571, 609 and 657 nm. The content of Sm3+ and doped ions Mg2+, Ti4 + affected the luminescent properties obviously, and Sm3 + affected the luminescent brightness mainly. Mg2+ and Ti4+ could deepen properly trap energy of Y2O2S crystal and strengthen its afterglow properties, the brightness and afterglow properties of sample were better when the mole ratio of Sm/Y, Mg/Y and Ti/Y is 1.4%, 1.25% and 0.9%, respectively.

机译：通过高温固体方法制备橙红色的长余粘剂Y2O2S：SM3 +，Mg2 +，Ti4 +。通过XRD分析，样品的晶相是Y 2 O 2 S，属于六边形系统，并且在掺杂Sm 3 +，Mg2 +，Ti4 +时，没有新的晶相。激发光谱的特征峰位于373,388,417,430,475和491nm，发射光谱的特征峰位于571,609和657nm。 SM3 +和掺杂离子Mg2 +，Ti4 +的含量显然影响了发光特性，并且SM3 +主要影响发光亮度。 Mg2 +和Ti4 +可以加深易于捕获Y2O2S晶体的捕获能量，并加强其余辉性能，当SM / Y，Mg / Y和Ti / Y的摩尔比为1.4％，1.25％和0.9时，样品的亮度和余辉性能更好％，分别。

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《International Conference on Rare Earth Ceramics and Glasses》|2007年||共4页
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Qiu Guanming; Wang Hui; Chen Yongjie; Geng Xiujuan; Yang Ying; Shi Shuang; Shi Zhaoxin;
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中图分类晶体生长;
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orange-red long afterglow phosphors; Y2O2S: Sm3 +; luminescent properties; rare earths; Mg2 +; Ti4 +;

机译：橙红色长余辉磷光体;Y2O2S：SM3 +;发光性质;稀土;Mg2 +;Ti4 +;
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Preparation of Orange-Red Long Afterglow Phosphors Y2O2S: Sm3+ , Mg2+ , Ti4+

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