http://staff.ustc.tsg211.com/~wuzq10/index.html (原主页)
主要从事第一性原理计算矿物高温高压物性,探讨地球内部成分和温度的分布及相关的各种过程。发展了计算量不到常规方法的十分之一的弹性方法,揭示地球内部多个波速结构异常的成因和地球内部水循环;获得了认识地球内部各种过程急需的矿物间多种元素平衡同位素分馏系数。在Nature、NG、NC、PNAS、PRL、EPSL、GRL、GCA、JGR等杂志发表文章近100篇,文章被引用3000多次。
1997年获四川大学水利水电工程系学士学位,2000年获浙江大学物理系硕士学位,2003年获清华大学物理系博士学位,2003-2005年清华大学高等研究中心博士后, 2005起先后在明尼苏达大学化工材料系和南加州大学化工材料系博士后,用第一性原理计算研究材料在高温高压下的物性。
中科院优秀导师(2020)
国家杰出青年基金(2019)
“-”领军人才 (2019)
中科院优秀导师 (2019)
傅承义青年科技奖 (2015)
校友基金会青年教师事业奖 (2013)
2013
Wu Z., Justo J. F., Wentzcovitch R., “Elastic Anomalies in a Spin-Crossover System: Ferropericlase at Lower Mantle Condition”, Physical Review Letters, 110, 228501 (2013).
Huang F., Chen L., Wu, Z., Wang W., “First-principles calculations of equilibrium Mg isotope fractionations between garnet, clinopyroxene, orthopyroxene, and olivine: implications for Mg isotope thermometry”, Earth and Planet Science Letters,367 61-70,2013
Valdez, M.,Wu, Z., Yu, Y., Wentzcovitch, R.“Thermal elasticity of (Fex,Mg1-x)2SiO4 olivine and wadsleyite”, Geophysical research letters, 40 290-294,2013
2012
Valdez, M.,Wu, Z., Yu, Y., Revenaugh, J., Wentzcovitch, R.“Thermoelastic properties of ringwoodite (Fex,Mg1-x)2SiO4: Its relationship to the 520 km seismic discontinuity”, Earth and Planet Science Letters, 351 115-122, 2012
2011
Wu, Z., and Wentzcovitch, R. M,“Quasiharmonic thermal elasticity of crystals: An analytical approach”, Physical Review B, 83, 184115 (2011)
Wu, Z., Nakano, A., Kalia, R. K., and Vashishta, P.,” Vibrational and thermodynamic properties of β- HMX: a first-principles investigation”, Journal of Chemical Physics, 134, 204509 (2011)
Wu, Z, Vashishta, P., Kalia, R., and Nakano, A., “First-principles calculations of the structural and dynamic properties, and the equation of state of crystalline iodine oxides I2O4, I2O5, and I2O6”, Journal of Chemical Physics, 134, 204501 (2011)
Shahnas M. H.; Peltier W. R.; Wu, Z, and Wentzcovitch R M, “The high-pressure electronic spin transition in iron: Potential impacts upon mantle mixing”,Journal of Geophysical Research,116, B08205,(2011)
2010
Wu, Z., “Calculating the anharmonic free energy from first principles”, Physical Review B, 81, 172301 (2010)
Wentzcovitch, R. M., Yu, Y., and Wu, Z., (2010) “Thermodynamic Properties and Phase Relations in Mantle Minerals Investigated by First Principles Quasiharmonic Theory”, Rev. Mineral. Geochem. 71,59-98.
Wentzcovitch, R. M., Yu, Y., and Wu, Z. “First Principles Quasiharmonic Thermoelasticity of Mantle Minerals”, Reviews in Mineralogy & Geochemistry, 71 59, 2010.
Hsu, H., Umemoto, K., Wu, Z., Wentzcovitch, R. M., “Spin-State Crossover of Iron in Lower-Mantle Minerals: Results of DFT plus U Investigations”,Reviews in Mineralogy & Geochemistry, 71 169, 2010.
Shimojo, F., Wu, Z., Nakano, A.,Kalia, RK., and Vashishta P.,"Density functional study of 1,3,5-trinitro-1,3,5-triazine molecular crystal with van der Waals interactions",Journal of Chemical Physics 132, 094106: 1-8, 2010
2009
Wu, Z., Justo, J. F.,da Silva, C. R. S., de Gironcoli, S., and Wentzcovitch, R. M, “Anomalous thermodynamics properties of ferropericlase throughout its spin crossover transition”, Physical Review B, 80, 014409 (2009)
Wu, Z., and Wentzcovitch, R. M,“Effective semiempirical ansatz for computing anharmonic free energies”, Physical Review B, 79, 104304 (2009)
Wentzcovitch, R. M., Justo, J. F., Wu, Z., da Silva, C. R. S., Yuen, D. A., and Kohlstedt D.,” Anomalous compressibility of ferropericlase throughout the iron spin crossover”, Proceedings of the National Academy of Sciences of the United States of America, 106:8447-8452 (2009)
2008
Yu, Y., Wu, Z., and Wentzcovitch, R. M.,”αtoβtoγtransformations in Mg2SiO4”, Earth and Planet Science Letters, 273,115-122 (2008)
Wu, Z., Wentzcovitch, R.M., Umemoto, K., Li, B., Hirose, K., and J. Zheng “PVT relations in MgO: an ultra-high PT scale for planetary sciences applications” Journal of Geophysical Research,113, B06204 (2008)
Sun, T., Umemoto, K., Wu, Z., Zheng J-C, and Wentzcovitch, R. M., “Lattice Dynamics and Thermal Equation of State of Platinum”, Physical review B, 78, 024304 (2008)
Yu J., Wu ZQ, Liu ZR, Yan QM, Wu J, Duan WH, “Phase diagram of ferroelectric BaTiO3 ultrathin films under open-circuit conditions”, Journal of Physics-Condensed Matter, 20 135203(2008).
2007
Wu, Z., and Wentzcovitch, R. M., “Vibrational and thermodynamic properties of wadsleyite: a density functional study”, Journal of Geophysical Research, 112, B12202 (2007)
Wu ZQ, Duan WH, Huang ND, Wu J, and Gu BL, “Self-organization nanodomain structure in ferroelectric ultrathin films”, Nanotechnology 18,325703(2007)
Wu ZQ, Huang ND, Liu ZR, Duan WH, Wu J, and Gu BL, “Unusual vortex structure in ultrathin Pb(Zr0.5Ti0.5)O3 films”, Journal of Applied Physsics 101,014112(2007).
2001-2005
Wu ZQ, Huang ND, Duan WH, Wu J, and Gu BL, “The phase diagram of ultrathin Pb(Zr0.5Ti0.5)O3 films under strain,” Applied Physics Letters 86, 202903(2005).
Wu ZQ, Duan WH, Wu J, Gu BL, and Zhang XW, “Dielectric properties of relaxor ferroelectric films,” Journal of Applied Physics 98, 094105(2005).
Wu ZQ, Huang ND, Liu ZR, Duan WH, Wu J, Gu BL and Zhang XW, “Ferroelectricity in Pb(Zr0.5Ti0.5)O3 thin films: critical thickness and 180o stripe domain,” Physical Review B 70, 104108 (2004).
Huang ND, Liu ZR, Wu ZQ, Duan WH, Gu BL and Zhang XW, “Huge enhancement of electromechanical responses in compositionally modulated Pb(Zr1-xTix)O3,” Physical Review Letters 91, 067602(2003).
Wu ZQ, Duan WH, Wang Y, Gu BL and Zhang XW, “Effect of defect-induced internal field on the aging of relaxors,” Physical Review B 67, 052101 (2003).
Wu ZQ, Duan WH, Liu ZR, Gu BL and Zhang XW, “Effect of tunneling frequency on relaxor behavior,” Microelectric Engineering 66: 676-682(2003).
Wu ZQ, Duan WH, Liu ZR, Gu BL and Zhang XW, “Multiple tunneling channels order-disorder ferroelectric model and field-induced phase transition in relaxors,” Physical ReviewB 65, 174119 (2002).
Wu ZQ and Zhang XJ, “Charge fluctuations in cuprate superconductors,” arxiv: cond-mat/0210455.
Wu ZQ, Liu ZR, and Gu BL, “Order-Disorder phase transition and dielectric mechanism in relaxor ferroelectrics,” Tsinghua Science and Technology 6, 97-108 (2001).