Preparation and Luminescent Properties of CaMoO4∶Tb3+
WANG Xi-gui, BO Su-ling, NA Mi-la, QI Xia
Key Laboratory for Physics and Chemisty of Functional Materials, Chemistry Environment Science College of Inner Mongolia Normal University,Huhhot 010022, China
Abstract:The precursor of the sample CaMoO4∶Tb3+ was prepared by the coprecipitation method.TG-DTA spectra show that there is, at 850 ℃, an energy absorption peak, suggesting that the sample reaches the activation spot of its response.The XRD pattern of the roasted sample shows that CaMoO4∶Tb3+, in the single phase, is a representative scheelite structure of CaMoO4, but the peaks shift toward right, implying that tiny crystal defect in the crystal is produced.The defect is likely to be formed by the formation of the holes as two Tb3+ replace three Ca2+ in a cell.The excitation and emission spectra of the sample were investigated and revealed that the defect structure of the sample is in favor of the energy transfer of the characteristic peak (488 nm) of the MoO2-4 effectively to Tb3+, and makes the 4f electrons of the Tb3+ transit, especially the 7F6→5D4 electronic transition (488 nm) of the Tb3+, to be greatly strengthened.As a result, the emission spectra with λex=488 nm show that the emission intensity of the spontaneously activated fluorescence MoO2-4 is greatly weakened, while the green light luminescence intensity of the 5D4→7F5 transition (544 nm) of the Tb3+ is greatly enhanced.This suggests that the sample CaMoO4∶Tb3+ will become the luminescence material with potentially great application value.
王喜贵,薄素玲,娜米拉,齐 霞. CaMoO4∶Tb3+发光材料的制备和发光性质的研究[J]. 光谱学与光谱分析, 2010, 30(01): 22-25.
WANG Xi-gui, BO Su-ling, NA Mi-la, QI Xia. Preparation and Luminescent Properties of CaMoO4∶Tb3+ . SPECTROSCOPY AND SPECTRAL ANALYSIS, 2010, 30(01): 22-25.
[1] WANG Xi-gui, WU Hong-ying, WENG Shi-fu, et al(王喜贵, 吴红英, 翁诗甫, 等).Acta Physico-Chimica Sinica(物理化学学报), 2003, 19(3): 398. [2] Garcia-Hipolito M, Martinez R, Alvarez Fregoso O.Journal of Luminescence, 2001, 93: 9. [3] Magyar A P, Silversmit h A J, Brewer K S.Journal of Luminescence, 2004, 108: 49. [4] Shionoya Shigeo, Yen William M.Phosphor Hand-Book.New York: CRC Press,1998.189. [5] Neeraj S, Kijina N, Cheetham A K.Chem.Phys.Lett., 2004, 387(1-3): 2. [6] YANG Shui-jin, SUN Ju-tang, QIN Zi-bin(杨水金, 孙聚堂, 秦子斌).Chinese Journal of Inorganic Chemistry(无机化学学报), 1994, 10(4): 358. [7] Hu Yunsheng, Zhuang Weidong, Ye Hongqi.Journal of Rare-Earths, 2004, 22(6): 821. [8] XU Xu-rong, SU Mian-zeng(徐叙瑢,苏勉曾).Luminescence & Luminescence Material(发光学与发光分析).Beijing: Chimical Industry Press(北京: 化学工业出版社),2004. [9] Liang J K.Phase Diagrams and Phase Structures.Beijing: Science Press, 1993.406. [10] Titipun Thongtem, Anukorn Phuruangrat, Somchai Thongtem.Materials Letters, 2008, 62: 454. [11] SUN Jia-yue, DU Hai-yan, HU Wen-xiang(孙家跃,杜海燕,胡文祥).Solid-State Luminescence Materials(固体发光材料).Beijing: Chemical Industry Press(北京: 化学工业出版社),2003. [12] Wang Feng, Fan Xiaoping, Wang Minquan.Journal of Luminescence,2005,114: 281. [13] ZHENG Zi-qiao, LI Hong-ying(郑子樵, 李红英).Rare-Earth Function Materials(稀土功能材料).Beijing: Chemical Industry Press(北京: 化学工业出版社),2003. [14] WANG Xi-gui,LI Xia(王喜贵, 李 霞).Spectroscopy and Spectral Analysis(光谱学与光谱分析),2008,28(2): 260.
