| 光谱学与光谱分析 |
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| Thermoluminescence Study on Sr2SiO4 Long Afterglow Material Doped with Eu2+ |
| PENG Tie-qiu, WANG Yin-hai*, LI Ya,XIONG Yi |
| School of Physics and Optoelectronic Engineering, Guangdong University of Technology, Guangzhou 510006, China |
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Abstract Sr1.97SiO4∶Eu2+0.03 phosphors were synthesized through the solid-state reaction technique. The X-ray diffraction shows that the phase of the phosphors is orthorhombic α′-Sr2SiO4. The produced phosphors show one intense emission band located at 490 nm. The phosphor shows a long afterglow properties excited by the sunlight. The decay characteristics show that the phosphors consist of a quick decay process and a slow decay process. The experimental results demonstrate that the thermoluminescence (TL) curves of the samples containing four peaks, located at 346, 420, 457 and 552 K, respectively. Meanwhile, the different peaks show the different decay characteristics, and the electron transfer between the trap levels was measured.
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Received: 2011-03-05
Accepted: 2011-06-28
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Corresponding Authors:
WANG Yin-hai
E-mail: yhwang@gdut.edu.cn
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[1] Xu X H,Wang Y H,et al. Journal of Applied Physics,2009, 105(8):083502.
[2] Wu H Y,Hu Y H,Wang Y H,et al. Journal of Alloys and Compounds,2010, 497(1-2):330.
[3] Park J K,Lim M A,et al. Applied Physics Letters,2003,82(5):683.
[4] XIE Wei,WANG Yin-hai,HU Yi-hua, et al(谢 伟,王银海,胡义华,等). Acta Physica Sinica(物理学报),2010,59(2):1148.
[5] Lakshminarasimhan N,Varadaraju U V. Materials Research Bulletin,2008,43(11):2946.
[6] Barry T L. Journal of the Electrochemical Chem.,1968,115(11): 1181.
[7] Sun X Y,Zhang J H,et al. Journal of Rare Earths Chem.,2008,26(3):421.
[8] Bacce E D,Pires A M,et al. Journal of Alloys and Compounds,2002,344(1-2):312.
[9] Kim J S,Park Y H,et al. Solid State Communications,2005,133(7):445.
[10] Kim J S,Jeon P E,et al. Solid State Communications,2005,133(3):187.
[11] Nag A,Kutty T R N. Journal of Materials Chemistry,2004,14(10):1598.
[12] Nag A,Kutty T R N. Journal of Alloys and Compounds,2003,354(1-2):221.
[13] Aitasalo T,Hls J,et al. Radiation Measurements,2004,38(4-6):727.
[14] Dorenbos P. Journal of Luminescence,2003,104(4):239.
[15] Shalgaonkar C S,Narlikar A V. Journal of Materials Science, 1972, 7(12): 1465.
[16] Qiu J, Hirao K. Solid State Communications, 1998, 106(12): 795. |
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