[1] C. R. Ronda. Recent achievements in research on phosphors for lamps and displays [J]. J. Lumin.,1997,72-74:49-54

[2] T. Justel,H. Nikol,C. Ronda. New developments in the field of luminescent materials for lighting and Displays [J]. Angew. Chem. Int. Ed.,1998,37(22):3084-3103

[3] Meng Qingyu,Chen Baojiu,Zhao Xiaoxia et al.. 4f5d transition and energy transfer of Tb3+ doped Y2O3 nanocrystalline [J]. Acta Optica Sinica,2007,27(2):295-301

[4] Chen Qianhuo,Zhang Wengong. Preparation and luminescence properties of the coordinated nano europium oxide colloids [J]. Acta Optica Sinica,2009,29(7):1912-1917

[5] Yao Lianzeng. Studies on spectral properties of Na5Tb(WO4)4 luminescent crystal[J]. Chinese J. Lasers,1991,18(10):796-800

[6] M. Czaja,S. Bodyl,P. Gluchowski. Luminescence properties of rare-earth ions in fluorite,apatite and scheelite minerals [J]. J. Alloy. Compd.,2008,451(1-2):290-292

[7] M. V. Nazarov,D. Y. Jeon,E. J. Popovici et al.. Optical lines in europium-terbium double activated calcium tungstate phosphor [J]. Phys. Lett. A,2004,330(3-4):291-298

[8] S. Ding,X. Zhang,Q. Wang. Highly efficient Raman frequency converter with strontium tungstate crystal [J]. IEEE J. Quant. Electron.,2006,42(1-2):78-84

[9] H. T. Shi,L. M. Qi,J. M. Ma et al.. Polymer-directed synthisis of penniform BaWO4 nanostructures in reverse micelles [J]. J. Am. Chem. Soc.,2003,125(12):3450-3451

[10] S. Kwan,F. Kim,J. Akana et al.. Synthesis and assembly of BaWO4 nanorods [J]. Chem. Commun.,2001,5:447-448

[11] J. K. Liu,Q. S. Wu,Y. P. Ding. Controlled synthesis of different mophologies of BaWO4 crystals through biomembrane/organic-addition supramolecule templates [J]. Crystal Growth&Design,2005,5(2):445-449

[12] B. Xie,Y. Wu,Y. Jiang et al.. Shape-controlled synthesis of BaWO4 crystals under different surfactants [J] . J. Crys. Growth.,2002,235:283-286.

[13] F. Zhang,S. P. Yang,H. M. Chen et al.. The effect of an anionic starburst dendrimer on the crystallization of BaWO4 under hydrothermal reaction conditions [J]. J. Crys. Growth,2004,267(3-4):569-573

[14] H. T. Shi,L. M. Qi,J. M. Ma et al.. Polymer-directed synthesis of penniform BaWO4 nanostructures in reverse micelles [J]. J. Am. Chem. Soc.,2003,125(12):3450-3451

[15] N. Hashimoto,Y. Takada,K. Sato et al.. Green-luminescent (La,Ce)PO4:Tb phosphors for small size fluorescent lamps [J]. J. Lumin.,1991,48-49:893-897

[16] H. Wang,C. K. Lin,X. M. Liu et al.. Monodisperse spherical core-shell-structured phosphors obtained by functionalization of sillica spheres with Y2O3:Eu3+ layers for field emission displays [J]. Appl. Phys. Lett.,2005,87(18):181907

[17] G. Z. Li,Z. L. Wang,Z. W. Quan et al.. Growth of highly crystalline CaMoO4:Tb3+ phosphor layers on spherical SiO2 particles via sol-gel process:structural characterization and luminescence properties [J]. Crystal Growth&Design,2007,7(9):1797-1802

[18] H. Hosono,T. Kawazoe,H. Kawazoe et al.. Long lasting phosphorescence properties of Tb3+-activatied reduced calcium aluminate glasses [J]. J. Phys.:Condens. Matter,1998 ,10(42):9541-9547

[19] C. A. Kodaira,H. F. Brito,M. C. F. C. Felinto. Luminescence investigation of Eu3+ ion in the RE2(WO4)3 matrix (RE=La and Gd) produced using the Pechini method [J]. J. Solid State Chem.,2003,171(1-2):401-407

[20] Y. Tian,W. H. Cao,X. X. Luo et al.. Preparation and luminescence property of Gd2O2S:Tb X-ray nano-phosphors using the complex precipitation method [J]. J. Alloy. Compd.,2007,433(1-2):313-317

[21] P. Y. Jia,J. Lin,M. Yu. Sol-gel deposition and luminescence properties of LiYF4:Tb thin films [J]. J. Lumin.,2007,122-123:134-136

[22] Q. L. Dai,H. W. Song,X. G. Ren et al.. Structure and upconversion luminescence of hydrothermal PbWO4:Yb,Er powders [J]. J. Phys. Chem. C,2008,112(49):19694-19698