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同济大学材料科学与工程学院导师教师师资介绍简介-项红萍

本站小编 Free考研考试/2021-01-12


基本信息:




姓名:项红萍
职称:副教授/博导
电子邮箱:xianghp@tongji.edu.cn
办公地点:嘉定校区德才馆450室
电话:

研究方向:

1. 发展高通量高效的多尺度材料计算方法和软件。
2. 跨尺度研究金属纳米粒子及其阵列表面等离子体振荡。
3. 设计超高速激光诱导的量子逻辑,量子信息存储磁性纳米材料。
4. 电、磁功能材料结构设计、性质预测以及机制解析。

学习工作经历:

2003/9-2008/7 中国科学院长春应用化学研究所 博士学位
2008/10-2010/3 德国亚琛工业大学无机化学学院 博士后
2010/4-2012/6 德国凯泽斯劳滕工业大学物理系 博士后
2012/7-2014/12 美国加州州立大学北邻分校物理系 博士后
2015/1-2017/3 中国科学院福建物质结构研究所 副研究员
2017/4-至今 同济大学材料科学与工程学院 副教授

代表性论文:

1. Xiang H. P., Zhang X., Neuhauser D., Lu G., Size-dependent plasmonic resonances from large-scale quantum simulations. Journal of Physical Chemistry Letters 5, 1163 (2014).
2. Xiang H. P., Zhang M. L. Zhang X. Lu G. Understanding Quantum Plasmonics from Time-Dependent Orbital-Free Density Functional Theory. Journal of Physical Chemistry C 120, 14330 (2016).
3. Zhang M. L. Xiang. H. P., Zhang X. Lu G. Quantum electrodynamics and plasmonic resonance of metallic nanostructures. Journal of Physics: Condensed Matter28, 155302 (2016).
4. Chaudhuri, D., Xiang H. P., Lefkidis, G., Huebner, W., Laser-induced ultrafast spin dynamics in di-, tri- and tetranuclear nickel clusters, and the M process. Physical Review B 90, 245113(2014).
5. Xiang H. P.*, Lefkidis G., Hübner W., First-principles study of the ultrafast, laser-induced spin transferability in the multi-center magnetic cluster Ni3Na2. Journal of Superconductivity and Novel Magnetism26, 2001 (2013).
6. Xiang H. P. *, Lefkidis G., Hübner W. Unified theory of ultrafast femtosecond and conventional picosecond magnetic dynamics in the distorted metallic three-center magnetic cluster Ni3Na2. Physical Review B 86, 134402 (2012).
7. Tang X. J., Xiang H. P., Liu X. H., Dronskowski R. A ferromagnetic carbodiimide: Cr2(NCN)3. Angewandte Chemie122, 4846 (2010).
8. Xiang H. P., Dronskowski R., Eck B., Tchougreeff A L. Influence of Coulomb correlation and spin-orbital coupling on the electronic and magnetic structures of MNCN (M = Fe, Co, Ni). Journal of Physical Chemistry A114, 12345 (2010).
9. Xiang H. P., Liu X. H., Dronskowski R. A theoretical re-investigation of the electronic structure of CuNCN: the influence of packing on the magnetic properties. Journal of Physical Chemistry C113, 18891(2009).
10. Zhang S. Y., Xiang H. P.*, Guo W. B., Tang Y. Y., Cui M. Y., He Z. Z. Synthesis, characterization, and mechanism analysis of S = 2 quasi-one-dimensional ferromagnetic semiconductor Pb2Mn(VO4)2(OH). Dalton Transactions 45, 7022 (2016).
11. Xiang H. P. *,Tang Y. Y., Zhang S. Y., He Z. Z.Intra-chain superexchange couplings in quasi-1D 3d transition-metal magnetic compounds. Journal of Physics: Condensed Matter28, 276003 (2016).
12. Xiang H. P., Wu Z. J., Ab initio study on the electronic, magnetic and mechanical properties of CaCu3V4O12. Inorganic Chemistry 47, 2706 (2008).
13. Xiang H. P., Liu X. J., Zhao E. J., Meng J., Wu Z. J., Magnetic and electronic properties of CaCu3Cr4O12 and CaCu3Cr2Sb2O12 by first-principles density functional calculation.
Inorganic Chemistry 46, 9575 (2007).
14. Xiang H. P., Liu X. J., Zhao E. J., Meng J., Wu Z. J., Ferrimagnetic and half-metallic CaCu3Fe4O12: Prediction from first principles investigation. Applied Physics Letters 91, 011903(2007).
15. Xiang H. P., Liu X. J., Zhao E. J., Meng J., Wu Z. J., First-principles study on the conducting mechanism of the heavy-fermion system CaCu3Ru4O12. Physical Review B76, 155103 (2007).






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