[1] Irifune T, Kurio A, Sakamoto S, et al. Materials: Ultrahard polycrystalline diamond from graphite [J]. Nature, 2003, 421(6923): 599-600.
[2] Abelson P H. A potential phosphate crisis [J]. Science, 1999, 283: 2015.
[3] Wigner E, Huntington H. On the possibility of a metallic modification of hydrogen [J]. J Chem Phys, 1935, 3(12): 764-770.
[4] Ma Y, Eremets M, Oganov A R. Transparent dense sodium [J]. Nature, 2009, 458(7235): 182-185.
[5] Hemley R J, Soos Z G, Hanfland M, et al. Charge-transfer states in dense hydrogen charge-transfer states in dense hydrogen [J]. Nature, 1994, 369(6479): 384-387.
[6] Oganov A R, Ono S. Theoretical and experimental evidence for a post-perovskite phase of MgSiO3 in Earth's D layer [J]. Nature, 2004, 430(6998): 445-448.
[7] Tian Y J, Xu B, Yu D L, et al. Ultrahard nanotwinned cubic boron nitride [J]. Nature, 2013, 493(7432): 385-388.
[8] Ma Y M, Eremets M, Oganov A R, et al. Transparent dense sodium [J]. Nature, 2009, 458(7235): 182-185.
[9] Irifune T, Sumiya H. Synthesis of nano-polycrystalline diamond (NPD) and its application to ultrahigh-pressure studies [J]. Rev High Press Sci Tech, 2011, 21(4): 278-284.
[10] Guan J W, He D W, Wang H K, et al. Influence of mechanical configuration and hardness of last stage anvil on high pressure producing efficiency for octahedral cell [J]. Acta Phys Sinica, 2012, 61(10): 100701. (in Chinese).
[11] 管俊伟, 贺端威, 王海阔, 等. 力学结构及末级压砧硬度对八面体压腔高压发生效率的影响 [J]. 物理学报, 2012, 61(10): 100701.
[12] Guo D S, Xu Z Q, Lu Z Q, et al. Application status at home and abroad and advantages of cubic hinge press for superhard abrasives [J]. Superhard Material Engineering, 2008, 20(6): 33-37. (in Chinese).
[13] 郭滇生, 徐祖全, 陆振勤, 等. 我国超硬材料六面顶液压机在国内外的应用现状及优势 [J]. 超硬材料工程, 2008, 20(6): 33-37.
[14] He D W, Wang F L, Kou Z L, et al. New device used to produce ultrahigh pressure: China, 200710048839. 2 [P]. 2007-12-26. (in Chinese).
[15] 贺端威, 王福龙, 寇自力, 等. 用于产生超高压的新型装置: 中国, 200710048839. 2 [P]. 2007-12-26.
[16] Qin J Q, He D W, Wang J H, et al. Is rhenium diboride a superhard material? [J]. Adv Mater, 2008, 20(24): 4780-4783.
[17] Xu C, He D W, Wang H K, et al. Nano-polycrystalline diamond formation under ultra-high pressure [J]. Int J Refract Met Hard Mater, 2012, 36: 232-237.
[18] Chen M, Wang S M, Zhang J, et al. Synthesis of stoichiometric and bulk CrN through a solid-state ion-exchange reaction [J]. Chem A Eur J, 2012, 18(48): 15459-15463.
[19] Wang W D, He D W, Tang M J, et al. Superhard composites of cubic silicon nitride and diamond [J]. Diam Relat Mater, 2012, 27: 49-53.
[20] Wang F L, He D W, Fang L M, et al. Design and assembly of split-sphere high pressure apparatus based on the hinge-type cubic-anviln press [J]. Acta Phys Sinica, 2008, 57(9): 5429. (in Chinese).
[21] 王福龙, 贺端威, 房雷鸣, 等. 基于铰链式六面顶压机的二级6-8型大腔体静高压装置 [J]. 物理学报, 2008, 57(9): 5429.
[22] Kubo A, Akaogi M. Post-garnet transitions in the system Mg4Si4O12-Mg3Al2Si3O12 up to 28 GPa: Phase relations of garnet, ilmenite and perovskite [J]. Phys Earth Planet Inter, 2000, 121(1): 85-102.
[23] Shatskiy A, Katsura T, Litasov K D, et al. High pressure generation using scaled-up Kawai-cell [J]. Phys Earth Planet Inter, 2011, 189(1): 92-108.
[24] Akaogi M, Hamada Y, Suzuki T, et al. High pressure transitions in the system MgAl2O4-CaAl2O4: A new hexagonal aluminous phase with implication for the lower mantle [J]. Phys Earth Planet Inter, 1999, 115(1): 67-77.
[25] Bertka C M, Fei Y M. Mineralogy of the Martian interior up to core-mantle boundary pressures [J]. J Geophys Res B, 1997, 102(B3): 5251-5264.
[26] Stewart A J, Westrenen W V, Schmidt M W, et al. Effect of gasketing and assembly design: A novel 10/3. 5 mm multi-anvil assembly reaching perovskite pressures [J]. High Pressure Res, 2006, 26: 293-299.
[27] Liebermann R C, Wang Y B. High-Pressure Research: Application to Earth and Planetary Sciences [M]. Washington: American Geophysical Union, 1992: 19.
[28] Frost D J, Poe B T, Tronnes, R G, et al. A new large-volume multianvil system [J]. Phys Earth Planet Inter, 2004, 143: 507-514.
[29] Irifune T. SOSEKI laboratory and new developments in multianvil technology [R]. Wuhan: TANDEM Symposium on Deep Earth Mineralogy, 2010.
[30] Ohtani A,Motobayashi M,Onodera A. Polymorphism of ZnTe at elevated pressure [J]. Phys Lett A, 1980, 75(5): 435-437.
[31] Ovsyannikov S V,Shchennikov V V. Phase transitions investigation in ZnTe by thermoelectric power measurements at high pressure [J]. Solid State Commun, 2004, 132(5): 333-336.
[32] Wang W D, He D W, Wang H K, et al. Reaserch on pressure generation efficiency of 6-8 type multianvil high pressure apparatus [J]. Acta Phys Sinica, 2010, 59(5): 3107. (in Chinese).
[33] 王文丹, 贺端威, 王海阔, 等. 二级6-8 型大腔体装置的高压发生效率机理研究[J]. 物理学报, 2010, 59(5): 3107.