[1] [1] TUCKER M G, GOODWIN A L, DOVE M T, et al. Negative thermal expansion in ZrW2O8: mechanisms, rigid unit modes, and neutron total scattering［J］. Physical Review Letters, 2005, 95(25): 255501.

[2] [2] EVANS J S O, HU Z, JORGENSEN J D, et al. Compressibility, phase transitions, and oxygen migration in zirconium tungstate, ZrW2O8［J］. Science, 1997, 275(5296): 61-65.

[3] [3] PRYDE A K A, HAMMONDS K D, DOVE M T, et al. Rigid unit modes and the negative thermal expansion in ZrW2O8［J］. Phase Transitions, 1997, 61(1/2/3/4): 141-153.

[4] [4] SUMITHRA S, UMARJI A M. Role of crystal structure on the thermal expansion of Ln2W3O12 (Ln=La, Nd, Dy, Y, Er and Yb)［J］. Solid State Sciences, 2004, 6(12): 1313-1319.

[5] [5] ROMAO C P, DONEGAN S P, ZWANZIGER J W, et al. Relationships between elastic anisotropy and thermal expansion in A2Mo3O12 materials［J］. Physical Chemistry Chemical Physics, 2016, 18(44): 30652-30661.

[6] [6] YOUNG L, ALVAREZ P T, LIU H F, et al. Extremely low temperature crystallization in the A2M3O12 family of negative thermal expansion materials［J］. European Journal of Inorganic Chemistry, 2016, 2016(8): 1251-1256.

[7] [7] KHOSROVANI N, SLEIGHT A W, VOGT T. Structure of ZrV2O7 from -263 to 470 ℃［J］. Journal of Solid State Chemistry, 1997, 132(2): 355-360.

[8] [8] WITHERS R L, EVANS J S O, HANSON J, et al. An in situ temperature-dependent electron and X-ray diffraction study of structural phase transitions in ZrV2O7［J］. Journal of Solid State Chemistry, 1998, 137(1): 161-167.

[9] [9] EVANS J S O, HANSON J C, SLEIGHT A W. Room-temperature superstructure of ZrV2O7［J］. Acta Crystallographica Section B Structural Science, 1998, 54(6): 705-713.

[10] [10] LI Q D, ZHAO Y M, KUANG Q, et al. Superstructure ZrV2O7 nanofibres: thermal expansion, electronic and lithium storage properties［J］. Physical Chemistry Chemical Physics, 2016, 18(47): 32160-32168.

[11] [11] PETRUSKA E A, MUTHU D V S, CARLSON S, et al. High-pressure Raman and infrared spectroscopic studies of ZrP2O7［J］. Solid State Communications, 2010, 150(5/6): 235-239.

[12] [12] YAMAMURA Y, HORIKOSHI A, YASUZUKA S, et al. Negative thermal expansion emerging upon structural phase transition in ZrV2O7 and HfV2O7［J］. Dalton Transactions, 2011, 40(10): 2242.

[13] [13] HISASHIGE T, YAMAGUCHI T, TSUJI T, et al. Phase transition of Zr1-xHfxV2O7 solid solutions having negative thermal expansion［J］. Journal of the Ceramic Society of Japan, 2006, 114(1331): 607-611.

[14] [14] YANASE I, KOJIMA T, KOBAYASHI H. Effects of Nb and Y substitution on negative thermal expansion of ZrV2-XPXO7(0X0.8)［J］. Solid State Communications, 2011, 151(8): 595-598.

[16] [16] YUAN B H, LIU X S, MAO Y C, et al. Low thermal expansion over a wide temperature range of Zr1-xFexV2-xMoxO7 (0 ≤x≤0.9)［J］. Materials Chemistry and Physics, 2016, 170: 162-167.