1、Zhu F, Lai X J, Wu X, Li Y C, Qin S (2014): Experimental and theoretical investigation on compression mechanism of FeF3 up to 62.0 GPa, Acta Crystallographica Section B 70, 801-808.
2、Gu T T, Fei Y W, Wu X, and Qin S (2014): High-pressure behavior of Fe3P and the role of phosphorus in planetary cores, Earth and Planetary Science Letters 390, 296-303.
3、Wu X, Mookherjee M, Gu T T, and Qin S (2011): Elasticity and anisotropy of iron-nickel phosphides at high pressures, Geophysical Research Letters, 38, L20301.
4、Wu X, Qin S, Gu T T, Yang J, and Manthilake G (2011): Structural and elastic properties of CaGeO3 perovskite at high pressures, Physics of the Earth and Planetary Interiors, 189, 151-156.
5、Gu T T, Wu X, Qin S, and Dubrovinsky L (2011): In situ high-pressure study of FeP: Implications for planetary cores, Physics of the Earth and Planetary Interiors, 184, 154-159.
6、Wu X, Steinle-Neumann G, Narygina O, McCammon C, and Dubrovinsky L (2010) In situ high-pressure study of LiNbO3-type FeTiO3: X-ray diffraction and Mössbauer spectroscopy, High Pressure Research, 30, 395- 405.
7、Wu X, Holbig E, and Steinle-Neumann G (2010) Structural stability of TiO2 at high pressure in density-functional theory based calculations, Journal of Physics: Condensed Matter, 22, 295501.
8、Wu X, Steinle-Neumann G, Narygina O, Kantor I., McCammon C, Prakapenka V, Swamy V, and Dubrovinsky L (2009): High-pressure behavior of perovskite: FeTiO3 dissociation into (Fe1-δ,Tiδ)O and Fe1+δTi2-δO5, Physical Review Letters, 103, 065503
9、Wu X, Steinle-Neumann G, Narygina O, Kantor I., McCammon C, Pascarelli S, Aquilanti G, Prakapenka V, and Dubrovinsky L (2009): Iron oxidation state of FeTiO3 under high pressure. Physical Review B, 79, 094106
10、Wu X, Qin S and Wu Z Y (2006): First-principles study of structural stabilities, electronic and optical properties of CaF2 under high pressure, Physical Review B, 73, 134103:1-8.
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