[1] [1] Mary T A, Evans J S O, Vogt T et al.. Negative thermal expansion from 0.3 to 1050 kelvin in ZrW2O8 [J]. Scinces, 1996, 272(5258): 90～92

[2] [2] Evans J S O, Hu Z, Jorgensen J D et al.. Compressibility, phase transitions and oxygen migration in zirconium tungstate, ZrW2O8 [J]. Scinces, 1997, 275(5296): 61～64

[3] [3] Mary T A, Sleight A W. Bulk thermal expansion in a large molybdate and tungstate family [J]. Mater. Res., 1999, 14(3): 912～915

[4] [4] Evans J S O, Mary T A, Sleight A W. Negative thermal expansion in Sc2(WO4)3 [J]. J. Solid State Chem., 1998, 137(1): 148～160

[5] [5] Forster P M, Sleight A W. Negative thermal expansion in Y2W3O12 [J]. Intern. J. Inorg. Mater., 1999, 1(2): 123～127

[6] [6] Pouchard M, Berdoulay F, Vandeven D. New family of oxygenated tungsten bronzes with a trivalent inserting element:The AlxWO3 series [J]. Seance Acad. Sci. Chim., 1968, 266(14): 1066～1068

[7] [7] Woodcock D. A., Lightfoot P., Ritter C. Negative thermal expansion in Y2(WO4)3 [J]. J. Solid State Chem., 2000, 149(1): 92～98

[8] [8] Evans J S O, Mary T A, Sleight A W. Negative thermal expansion in a large molybdate and tungstate family [J]. J. Solid State Chem., 1997, 133(2): 580～583

[9] [9] S Sumithra, A M Umarji. Hygrocopicity and bulk thermal expansion in Y2W3O12 [J]. Materials Research Bulletin, 2005, 40(1): 167～176

[10] [10] P. M. Forster, A. Yokochi, A. W. Sleight. Enhanced negative thermal expansion in Lu2W3O12 [J]. J. Solid State Chem., 1998, 140(1): 157～158

[11] [11] J. S. O. Evans, T. A. Mary. Structural phase transitions and negative thermal expansion in Sc2(MoO4)3 [J]. Internat. J. Materials, 2000, 2: 143～151