Three organic-inorganic hybrid phosphors were synthesized by a surface coordination method with SrAl2O4:Eu2+, Dy3+ powder and maleic anhydride,oleic acid and 2,2’dipyrical ligand respectively, and characterized by means of IR, SEM, XRD, fluorescent spectra and water resistance experiments. The results show that Sr2+2+ on the surface of SrAl2O4:Eu2+, Dy3+ phosphor is coordinated with O and N atoms of maleic anhydride and oleic acid and 2,2’dipyrical ligand respectively. The crystal structures, the shapes and positions of excitation and emission peak of coated phosphors are the same as that of uncoated phosphors, but after coordination encapsulation, the relative luminous intensity and the afterglow life are decreased, and the roughness of crystal structure is increased, and the stability in water is improved. The best ligand is maleic anhydride. The luminous intensity and afterglow life of the phosphors coordinated with maleic anhydride are less 3% and 5% respectively than that of the uncoated phosphors.
YU Sheng-Fei
,
PI Pi-Hui
,
WEN Xiu-Fang
,
CHENG Jiang
,
YANG Zhuo-Ru
. Coordination Encapsulation on SrAl2O4:Eu2+, Dy3+ Phosphor and Its Characterization[J]. Journal of Inorganic Materials, 2007
, 22(4)
: 642
-646
.
DOI: 10.3724/SP.J.1077.2007.00642
[1] Murayama Y, Takeuchi N, Aoki Y, et al. Phosphorescent phosphor, US Patent, 5686022, 1997. [2] Qiu J Y, Hirao K. Solid State Communications. 1998, 106 (12): 795--798.
[3] Bodi J A, Phillips T L. Daylight/night glow colored phosphorescent plastic compositions and articles.WO27908,2000. [4] Van D, Debra M. Tintable Luminescence Paint, US Patent, 6359048, 2002.
[5] Lin Y, Zhang Z, Zhang F, et al. Materials Chemistry and Physics, 2000, 65: 103--106.
[6] Xingdong Lu. Materials Chemistry and Physics. 2005, 93: 526--530.
[7] 吕兴栋, 舒万艮, 谭爱东, 等(Lddot U Xing-Dong, et al).
无机材料学报(Journal of Inorganic Materials), 2004, 19 (6): 1373--1378.
[8] 孙中新, 刘应亮, 黄浪欢, 等. 化学建材, 2004, (4): 26--28.
[9] 郭崇峰, 吕玉华, 苏锵. 中山大学学报(自然科学版), 2003, 42 (6): 47--50.
[10] Yang H, Wang X J, Duan G H, et al. Materials Letters., 2004, 58: 2374--2379.
[11] Maruwa Kogyo Kk. Hydrophobic phosphorescent material[P], JP09003449,1997.
[12] Hitachi Chem Co Ltd. Surface treated fluorescent material, JP Patent, 09125056,1997. [13] 侯佩民, 刘福长, 郭焱, 等. 水性蓄能发光涂料[P], CN1434088, 2003.
[14] 张玉军, 郎军昌, 朱仲力, 等. 一种水性丙烯酸蓄能发光涂料及其
制备方法, CN1288031, 2001.
[15] 吕兴栋, 舒万艮. 应用化学, 2005, 22 (6): 638--642.
[16] 中西香尔, PH索罗曼. 红外光谱分析100例. 北京: 科学出版社, 1984. 18.
[17] 中本一雄. 无机和配位化合物的红外拉曼光谱(中译本). 北京: 化工出版
社, 1986. 235.
