Low-temperature combustion synthesis and luminescent properties of SrMgAl10O17：Eu2+, Er3+ high brightness blue phosphors

Liu Dan; Liang Pei; Wang Le; Xu Guo-Tang; Liu Yang; Li Xiao-Yan; Dong Qian-Min; Huang Jie

doi:10.7498/aps.62.197802

Abstract

The SrMgAl10O17:Eu2+ and SrMgAl10O17:Eu2+, Er3+ blue phosphors were synthesized by the combustion synthesis method. Their crystal structures and luminescent properties were analyzed by X-ray diffraction (XRD)、scanning electron microscope (SEM) and photoluminescence spectra, respectively. The XRD and SEM results indicate that the sample is well-crystallized in the combustion procedure, and its crystal structure has not changed when doped with low concentrations of rare-earth ions. PL results show that the phosphor of SrMgAl10O17:Eu2+ can be effectively excited by near UV LED chip with a broad emission spectrum extending from 430 nm to 520 nm, and has main peaks located at 460nm. Furthermore, the sample of the luminous intensity is the largest when the Er2+, Er3+ co-doped concentration is 4%, and the emission intensity of Sr0.95MgAl10O17:0.05Eu2+, Er3+ phosphor is significantly enhanced 54.9% higher than that of SrMgAl10O17:Eu2+ phosphor. It is indicated that Er3+has good sensitization effect for Eu2+ in luminescence, and this can be explained by the theory of energy transfer.

Keywords:

Authors and contacts

1.
College of Optics and Electronic Science and Technology, China Jiliang University, Hangzhou 310018, China
Funds: Project supported by the National Natural Science Foundation of China (Grant Nos. 61006051, 61177050), the Natural Science Foundation of Zhejiang Pvovince, China (Grant Nos. Y407370, Y1110777), and the Key Scientific and Technological Innovation Team of Zhejiang Province, China (Grant No. 2010R50020).

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Cited By

[1]	Ponce F A, Bour D P 1997 Nature 386 351
[2]	Pimputkar S, Speck J S, DenBaars S P, Nakamura S 2009 Nature Photonics 3 180
[3]	Morkoc H, Mohammad S N 1995 Science 267 51
[4]	Muthu S, Schuurmans F J, Pashley M D 2002 IEEE Journal on Selected Topics in Quantum Electronics 8 333
[5]	Xiao D, Kim K, Bedair S, Zavada J 2004 Appl. Phys. Lett. 84 672
[6]	Hirosaki N, Xie R J, Kimoto K, Sekiguchi T, Yamamoto Y, Suehiro T, Mitomo M 2005 Appl. Phys. Lett. 86 211905
[7]	Ho Ryu J, Park Y G, Won H S, Suzuki H, Kim S H, Yoon C 2008 J. Ceram. Soc. Jpn. 11 6389
[8]	Onuma H, Tanno H, Suzuki A, Sahnoun R, Koyama M, Tsuboi H, Hatakeyama N, Endou A, Takaba H, Carpio C A 2010 J. Soc. Inf. display 18 211
[9]	Wanjun T, Donghua C, Ming W 2009 Optics & Laser Technology 41 81
[10]	Ju G, Hu Y, Chen L, Wang X 2012 J. Lumin. 132 1792
[11]	Mahakhode J, Dhoble S, Joshi C, Moharil S 2007 J. Alloys Compd. 438 293
[12]	Manjunathaa C, Sunitha D V, Nagabhushana H, Nagabhushana B M, Sharma S C, Chakradhar R P S 2012 Spectrochim. Acta Part. A 93 140
[13]	Ekambaram S, Maaza M 2005 J. Alloys Compd. 395 132
[14]	Singh V, Gundu Rao T, Zhu J J 2008 J. Lumin. 128 583
[15]	You Y 2010 M. E Dissertation (Wuhan: Huazhong University of Science and Technology) (in Chinese) [游燕 2010 硕士学位论文 (武汉: 华中科技大学)]
[16]	Song G H, Liao J W, Jiang B, Ji X M, Cui Y P 2011 Journal of Optoelectronics. Laser. 22 17791783 (in Chinese) [宋国华, 廖建文, 姜斌, 纪宪明, 崔一平 2011 光电子·激光 22 17791783]
[17]	Cao S X, Han T, Tu M J 2011 Acta Phys. Sin. 60 127802 (in Chinese) [曹仕秀, 韩涛, 涂铭旌 2011 物理学报 60 127802]
[18]	Wu Y, Shi C S 1994 chinese rare earths 15 37 (in Chinese) [吴郢, 石春山 1994 稀土 15 37]
[19]	Hong G Y 2011 Rare earth luminescent materials-basic and applied (beijing: Science Press) p200 (in Chinese) [洪广言 2011 稀土发光材料-基础与应用 (北京: 科学出版社) 第200页]
[20]	Ryu H, Bartwal K S 2008 Physica B: Condensed Matter 403 3195
[21]	Bartwal K S, Ryu H, Brik M G, Sildos I 2009 J. Phys. D: Appl. Phys. 42 245401

Catalog

Vol. 62, Issue 19 - 2013-10-05

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