-
The phosphor Y1.98O3: Eu0.013+, Dy0.013+ was prepared by high temperature solid reaction method. X-ray powder diffraction (XRD), scanning electronic microscope (SEM), photoluminescence spectra (PL), and single-photon counter system were used to investigate the structure, morphology, luminescent properties, and decay characteristics of the phosphor Y1.98O3: Eu0.013+, Dy0.013+ which was synthesized with different contents of H3BO3. Results show that the structure of the H3BO3-contained phosphors can keep Y2O3 matrix when the content of H3BO3 is below 8%(mol), and the particles size of phosphors increases during the addition of H3BO3. The luminescence of phosphors come from the transition of 5D0→7FJ of Eu3+, the main emission peaks at 612 nm and the intensity is increased linearly with the increase of H3BO3 content. Phosphors show better afterglow characteristics during the increase of H3BO3.The measurement of thermoluminescence(TL) reveals that the addition of H3BO3 increases the trap depth and trap concentration in the host, hence the afterglow characteristics become better.
-
Keywords:
- H3BO3 /
- long-afterglow /
- Y2O3 /
- traps
[1] Pan Z W, Lu Y Y, Liu F 2012 Nature Mater. 11 58
[2] Liang Z Q, Zhang J S, Sun J S, Li X P, Cheng L H, Zhong H Y, Fu S B, Tian Y, Chen B J 2013 Physica B 412 36
[3] Liu Z R, Zhong R X 2013 J. Alloy Compd. 556 6
[4] Wei D L, Qin L, Huang Y L, Seo H J 2013 Ceram. Int. 39 2383
[5] Wang Z J, Li P L, Wang G, Yang Z P, Guo Q L, 2008, Acta Phys. Sin. 57 4575 (in Chinese) [王志军, 李盼来, 王刚, 杨志平, 郭庆林 2008 物理学报 57 4575]
[6] Dou X H, Zhao W R, Song E H, Zhou G X, Yi C Y, Zhou M K 2011 Spectrochimica Acta Part A 78 821
[7] Qi Y, Lian S X, Yu L P, Zhou W, Yin D L 2009 Chinese Journal of Inorganic Chemistry 25 218 (in Chinese) [祁媛, 廉世勋, 余丽萍, 周文, 尹笃林 2009 无机化学学报 25 218]
[8] Xie W, Wang Y H, Hu Y H, Luo L, Wu H Y, Deng L Y 2010 Acta Phys. Sin. 59 3344 (in Chinese) [谢伟, 王银海, 胡义华, 罗莉, 吴浩怡, 邓柳咏 2010 物理学报 59 3344]
[9] Ji T K, Jiang H Y, Chen F 2010 J. Alloy Compd. 502 180
[10] Ma M X, Zhu D C, Tu M J 2009 Acta Phys. Sin. 58 6512 (in Chinese) [马明星, 朱达川, 涂铭旌 2009 物理学报 58 6512]
[11] Xue H W, Cui C E, Hao H Z, Huang P 2010 Jounal of Functional Materials and Devices 16 81 (in Chinese) [薛红伟, 崔彩娥, 郝虎在, 黄平 2010 功能材料与器件学报 16 81]
[12] Wang Z J, Li P L, Yang Z P, Guo Q L 2013 Chin. Phys. B 22 047804
[13] Nakamura A, Nambu N, Saitoh H 2005 Science and Technology of Advanced Materials 6 210
[14] Wang C N, Zhang W P, Yin M 2009 J. Alloy Compd. 474 180
[15] Ferrari J L, Pires A M, Davolos M R 2009 Materials Chemistry and Physics 113 587
[16] Xie W, Wang Y H, Hu Y H, Zhang J, Zou C W, Li D, Shao L X 2011 Acta Phys. Sin. 60 067801 (in Chinese) [谢伟, 王银海, 胡义华, 张军, 邹长伟, 李达, 邵乐喜 2011 物理学报 60 067801]
[17] Katsumata T, Toyomane S, Tonegawa A, Kanai Y, Kaneyama U 2002 Journal of Crystal Growth 361 237
[18] Zhang C X, Tang Q, Luo D L 2002 Acta Phys. Sin. 51 2881 (in Chinese) [张纯祥, 唐强, 罗达玲 2002 物理学报 51 2881]
[19] McKeever S W S, Thermoluminescence of Solids. 1985 (Cambridge University Press) p99
[20] Shalgaonkar C S, Narlikar A V 1972 Journal of Materials Science 7 1465
-
[1] Pan Z W, Lu Y Y, Liu F 2012 Nature Mater. 11 58
[2] Liang Z Q, Zhang J S, Sun J S, Li X P, Cheng L H, Zhong H Y, Fu S B, Tian Y, Chen B J 2013 Physica B 412 36
[3] Liu Z R, Zhong R X 2013 J. Alloy Compd. 556 6
[4] Wei D L, Qin L, Huang Y L, Seo H J 2013 Ceram. Int. 39 2383
[5] Wang Z J, Li P L, Wang G, Yang Z P, Guo Q L, 2008, Acta Phys. Sin. 57 4575 (in Chinese) [王志军, 李盼来, 王刚, 杨志平, 郭庆林 2008 物理学报 57 4575]
[6] Dou X H, Zhao W R, Song E H, Zhou G X, Yi C Y, Zhou M K 2011 Spectrochimica Acta Part A 78 821
[7] Qi Y, Lian S X, Yu L P, Zhou W, Yin D L 2009 Chinese Journal of Inorganic Chemistry 25 218 (in Chinese) [祁媛, 廉世勋, 余丽萍, 周文, 尹笃林 2009 无机化学学报 25 218]
[8] Xie W, Wang Y H, Hu Y H, Luo L, Wu H Y, Deng L Y 2010 Acta Phys. Sin. 59 3344 (in Chinese) [谢伟, 王银海, 胡义华, 罗莉, 吴浩怡, 邓柳咏 2010 物理学报 59 3344]
[9] Ji T K, Jiang H Y, Chen F 2010 J. Alloy Compd. 502 180
[10] Ma M X, Zhu D C, Tu M J 2009 Acta Phys. Sin. 58 6512 (in Chinese) [马明星, 朱达川, 涂铭旌 2009 物理学报 58 6512]
[11] Xue H W, Cui C E, Hao H Z, Huang P 2010 Jounal of Functional Materials and Devices 16 81 (in Chinese) [薛红伟, 崔彩娥, 郝虎在, 黄平 2010 功能材料与器件学报 16 81]
[12] Wang Z J, Li P L, Yang Z P, Guo Q L 2013 Chin. Phys. B 22 047804
[13] Nakamura A, Nambu N, Saitoh H 2005 Science and Technology of Advanced Materials 6 210
[14] Wang C N, Zhang W P, Yin M 2009 J. Alloy Compd. 474 180
[15] Ferrari J L, Pires A M, Davolos M R 2009 Materials Chemistry and Physics 113 587
[16] Xie W, Wang Y H, Hu Y H, Zhang J, Zou C W, Li D, Shao L X 2011 Acta Phys. Sin. 60 067801 (in Chinese) [谢伟, 王银海, 胡义华, 张军, 邹长伟, 李达, 邵乐喜 2011 物理学报 60 067801]
[17] Katsumata T, Toyomane S, Tonegawa A, Kanai Y, Kaneyama U 2002 Journal of Crystal Growth 361 237
[18] Zhang C X, Tang Q, Luo D L 2002 Acta Phys. Sin. 51 2881 (in Chinese) [张纯祥, 唐强, 罗达玲 2002 物理学报 51 2881]
[19] McKeever S W S, Thermoluminescence of Solids. 1985 (Cambridge University Press) p99
[20] Shalgaonkar C S, Narlikar A V 1972 Journal of Materials Science 7 1465
Catalog
Metrics
- Abstract views: 6477
- PDF Downloads: 430
- Cited By: 0