Strong dependence of upconversion luminescence on doping concentration in holmium and ytterbium co-doped Y_2O_3 phosphor

Under the excitation of 980 nm diode laser, intense green emission (5F4+5S2–5I8) of Ho3+ was observed in Ho3+ and Yb3+ co-doped cubic Y2O3. The doping concentration and laser power dependence of the upconverted emission were studied. The decay curves of 5F4+5S2 emission of Ho3+ under the excitation...

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Bibliographic Details
Published inJournal of rare earths Vol. 29; no. 6; pp. 536 - 539
Main Author 韦先涛 李勇 程学瑞 陈永虎 尹民
Format Journal Article
LanguageEnglish
Published Elsevier B.V 2011
Subjects
holmium
rare earths
sol-gel
upconversion luminescence
Y 2O 3
上转换发光
最佳掺杂浓度
浓度依赖性
激光二极管
激光激发
绿光发射
能量传递过程
荧光粉
upconversion luminescence
Y 2O 3
holmium
sol-gel
rare earths
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ISSN1002-0721
2509-4963
DOI10.1016/S1002-0721(10)60493-0

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Summary:Under the excitation of 980 nm diode laser, intense green emission (5F4+5S2–5I8) of Ho3+ was observed in Ho3+ and Yb3+ co-doped cubic Y2O3. The doping concentration and laser power dependence of the upconverted emission were studied. The decay curves of 5F4+5S2 emission of Ho3+ under the excitation of 355 nm pulse laser were measured to investigate the energy transfer process between Ho3+ and Yb3+. The results indicated that two-photon process was responsible for the upconversion (UC) emission. The Ho3+ concentration of 0.04 mol.% and the Yb3+ concentration of 5 mol.% were determined to be the best value for the strongest Ho3+ emission under the excitation of 980 nm light. The cross-relaxation between two neighboring Ho3+ ions and the back energy transfer from Ho3+ to Yb3+ were important factors for determin- ing the optimal doping concentration. This material was a promising candidate for the application in biomedical fluorescent labels for the intense green emission upon excitation of near-infrared (NIR) light.
Bibliography:Under the excitation of 980 nm diode laser, intense green emission (5F4+5S2–5I8) of Ho3+ was observed in Ho3+ and Yb3+ co-doped cubic Y2O3. The doping concentration and laser power dependence of the upconverted emission were studied. The decay curves of 5F4+5S2 emission of Ho3+ under the excitation of 355 nm pulse laser were measured to investigate the energy transfer process between Ho3+ and Yb3+. The results indicated that two-photon process was responsible for the upconversion (UC) emission. The Ho3+ concentration of 0.04 mol.% and the Yb3+ concentration of 5 mol.% were determined to be the best value for the strongest Ho3+ emission under the excitation of 980 nm light. The cross-relaxation between two neighboring Ho3+ ions and the back energy transfer from Ho3+ to Yb3+ were important factors for determin- ing the optimal doping concentration. This material was a promising candidate for the application in biomedical fluorescent labels for the intense green emission upon excitation of near-infrared (NIR) light.
11-2788/TF
WEI Xiantao , LI Yong , CHENG Xuerui , CHEN Yonghu , YIN Min (1. Department of Physics, University of Science and Technology of China, Hefei 230026, China; 2. School of Mathematics & Physics, Anhui University of Technology, Maanshan 243000, China)
upconversion luminescence; Y2O3; holmium; sol-gel; rare earths
ISSN:1002-0721
2509-4963
DOI:10.1016/S1002-0721(10)60493-0