Browse > Article
http://dx.doi.org/10.3740/MRSK.2016.26.4.212

Photoluminescence Property of Lu2Si2O7:Ce3+ Powder for Scintillator  

Kim, Kyung-Nam (Department of Advanced Materials Engineering, Kangwon National University)
Cao, Guozhong (Department of Materials Science and Engineering, University of Washington)
Publication Information
Korean Journal of Materials Research / v.26, no.4, 2016 , pp. 212-215 More about this Journal
Abstract
In this paper, cerium doped lutetium pyrosilicate (LPS) powders with cerium content (0.05 and 0.07 mol%) were prepared by sol-gel process. The formation of lutetium pyrosilicate (LPS) phase was confirmed by XRD analysis for the powders heated at $1,200^{\circ}C$; in these powders, a single phase of $Lu_2Si_2O_7$ (LPS) was observed. Cerium doped lutetium pyrosilicate (LPS) powder was agglomerated and constituted of small spherical particles with diameters of about 300 nm. The photoluminescence spectra of the $Lu_2Si_2O_7:Ce^{3+}$ powders showed the characteristic of excitation and there was an emission spectrum for $Ce^{3+}$ in the host of $Lu_2Si_2O_7$. The emission spectrum shows a broad band in the range of 350-525 nm; the broad wavelength on the right side of the spectra should be ascribed to the same 5d-4f transitions of $Ce^{3+}$, as in the case of cerium doped $Lu_2Si_2O_7$ single crystals.
Keywords
LPS; scintillator; sol-gel; photoluminescence; cerium;
Citations & Related Records
연도 인용수 순위
  • Reference
1 C. L. Melcher and J. S. Schweitzer, IEEE Trans. Nucl. Sci., 39, 502 (1992).   DOI
2 D. Pauwels, N. Le Masson, B. Viana, A. Kahn Harari, E. V. D. van Loef, P. Dorenbos and C.W.E. van Eijk, IEEE Trans. Nucl. Sci., 47, 1787 (2000).   DOI
3 L. Pidol, B. Viana, A. Bessiere, A. Galtayries, P. Dorenbos and B. Ferrand, Mater. Sci. Forum, 555, 371 (2007).   DOI
4 K. Takagi and T. Fukazawa, Appl. Phys. Lett., 42, 43 (1983).   DOI
5 C. Yan, G. Zhao, Y. Hang, L. Zhang and J. Xu, J. Cryst. Growth, 281, 411 (2005).   DOI
6 C. Yan, G. Zhao, Y. Hang, L. Zhang and J. Xu, Mater. Lett., 60, 1960 (2006).   DOI
7 H. Feng, D. Ding, H. Li, S. Lu, S. Pan, X. Chen and G. Ren, J. Alloy. Compd., 509, 3855 (2011).   DOI
8 C. Mansuy, R. Mahiou and J. M. Nedelec, Chem. Mater., 15, 3242 (2003).   DOI
9 C. Mansuy, C. Dujardin, R. Mahiou and J .M. Nedelec, Opt. Mater., 31, 1334 (2009).   DOI
10 D. Boyer, G Bertrand-Chadeyron, R. Mahiou, L. Lou, A. Brioude and J. Mugnier, Opt. Mater., 16, 21 (2001).   DOI
11 J. Sokolnicki and M. Guzik, Opt. Mater., 31, 826 (2009).   DOI
12 D. Y. Shin, G. Cao and K. N. Kim, Curr. Appl. Phys., 11, S309 (2011).   DOI
13 H. L. Li, X. J. Liu, R. J. Xie, Y. Zeng and L. P. Hung, J. Am. Ceram. Soc., 87, 2536 (2006).
14 C. Mansuy, J. M Nedelec, C. Dujardin and R. Mahiou, J. Sol-Gel Sci. Technol., 32, 253 (2004).   DOI
15 Z. Zhu, B. Liu, C. Cheng, Y. Yi, H. Chen and M. Gu, Appl. Phys. Lett., 102, 071909 (2013).   DOI