Abstract:A single-host white-light-emitting phosphor BaSrMg(PO4)2∶Eu2+ was prepared by high temperature solid-state reaction method, and the luminescence characteristics and XRD pattern were investigated. The results show that BaSrMg(PO4)2 phase was obtained by sintering at 1 200 ℃ for 3 hours. BaSrMg(PO4)2∶Eu2+ phosphor exhibits two main emission bands peaking at 424 and 585 nm, respectively. The emission band peaking at 424 nm is attributed to the 4f65d1→4f7 transition of Eu2+ substituting Sr2+, while the emission band peaking at 585 nm originates from the 4f65d1→4f7 transition of Eu2+ replacing Ba2+ in host lattice. The excitation spectra of the two emission peaks are range from 250 to 400 nm and both peaking at 360 nm. The effect of the proportion of Ba and Sr, and the Eu2+ doping concentration on the emission intensity were discussed in detail. Different chromaticity coordinates were obtained for each phosphor, that is, the chromaticity coordinates of the designed phosphor is tunable for the white-emitting LED or for special purpose. Quantum efficiency was also examined for the phosphors with different Eu2+ doping concentration, and concentration quenching took place obviously when Eu2+ doping concentration was lager than 6% in mole ratio. The obtained phosphor BaSrMg(PO4)2∶Eu2+ can be excited by near ultraviolet radiation effectively and emit full color lighting, which is a promising single-host white-light-emitting phosphor for white LED.
潘再法,刘 爽,朱澄静,徐 娟,刘文涵,王丽丽*. 白光LED用单基质荧光粉BaSrMg(PO4)2∶Eu2+的制备及发光性能研究[J]. 光谱学与光谱分析, 2011, 31(11): 2910-2913.
PAN Zai-fa, LIU Shuang, ZHU Cheng-jing, XU Juan, LIU Wen-han, WANG Li-li*. Preparation and Luminescence of Single-Host White-Light-Emitting BaSrMg(PO4)2∶ Eu2+ Phosphor for Ultraviolet LEDs. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2011, 31(11): 2910-2913.
[1] LI Pan-lai, YANG Zhi-ping, WANG Zhi-jun, et al(李盼来, 杨志平, 王志军, 等). Chinese Science Bulletin(科学通报), 2007, 52(13): 1495. [2] XU Guo-fang, RAO Hai-bo, YU Xin-mei, et al(徐国芳,饶海波,余心梅,等). Advanced Display(现代显示),2007, 8: 59. [3] LUO Xi-xian, CAO Wang-he, SUN Fei(罗昔贤, 曹望和, 孙 菲). Chinese Science Bulletin(科学通报), 2008, 53: 1010. [4] Nakamura S, Fasol G. The Blue Laser Diode. Berlin: Springer Press, 1996. 1. [5] ZHANG Shao-hua, ZHOU Ming-bin, HU Jiang-feng, et al(章少华, 周明斌, 胡江峰, 等). Materials Review(材料导报), 2009, 23(5): 25. [6] Kim J S, Jeon P E, Choi J C, et al. Appl. Phys. Lett., 2004, 84(15): 2931. [7] Kim J S, Kang J Y, Jeon P E, et al. Appl. Phys. Lett., 2004, 85: 3696. [8] Sakuma K, Hirosaki N, Xie R J, et al. Mater. Lett., 2007, 61(2): 547. [9] Bachmann V, Justel T, Meijerink A, et al. J. Lumin., 2006, 121(2): 441. [10] ZHANG Mei, DING Wei-jia, WANG Jing, et al(张 梅, 丁唯嘉, 王 静, 等). Chin. J. Lumin.(发光学报), 2010, 31(1): 31. [11] SUN Xiao-yuan, ZHANG Jia-hua, ZHANG Xia, et al(孙晓园, 张家骅, 张 霞, 等). Chin. J. Lumin.(发光学报), 2005, 26(3): 404. [12] Chang C K, Chen T M, Appl. Phys. Lett., 2007, 90: 161901. [13] Tang Y S, Hu S F, Lin C C, et al. Appl. Phys. Lett.,2007, 90: 151108. [14] Smith T, Guild J, Trans. Opt. Soc. London, 1931~1932, 33: 73.
