成员信息
肖攀  副研究员

Email:xiaopan@lnm.imech.ac.cn
电话:+86-10-82543930
地址:北京市海淀区北四环西路15号 (100190)


个人简历

  • 07/2011 – 今 中国科学院力学研究所,助理研究员,副研究员
  • 02/2015 - 10/2015 佐治亚理工学院,访问学者
  • 09/2006 – 07/2011 中国科学院力学研究所,固体力学专业,理学博士
  • 09/2002 – 07/2006 湘潭大学,工程力学专业,工学学士

研究领域

  • 多尺度计算方法
  • 跨尺度统计的非线性力学
  • 多尺度方法的并行算法及可视化
  • 高速列车结构动力学与优化

科研项目

主持

  1. 国家自然科学基金,青年基金(资助号:11202212), 原子热运动的非线性和对纳米材料变形动力学过程的影响
  2. 国家自然科学基金,面上基金(资助号:11672298), 量子点复合材料发光实现纳秒纳米尺度应力测量研究

参加

  1. 国家重点研发计划任务(2016YFB1200602-09,2016.7-2020.12),磁浮列车多目标系统优化设计理论与实验研究
  2. 国家重点研发计划项目(2017YFB0202800,2017.7-2021.6),高速列车延寿优化高性能数值模拟软件及应用
  3. 国家自然科学基金,面上项目(资助号:11372316), 岩石和地壳非均匀应变场演化规律的揭示和灾变破坏前兆分析
  4. 自然科学基金重点项目(11432014,2015.01-2019.12),考虑离散与连续关联的跨尺度方法及对先进材料变形机理的表征
  5. 国家重大科学研究计划(2012CB937500),纳米材料及结构的力学新原理及精细表征技术研究

文章发表

  1. P. Xiao, F. J. Ke, Y. L. Bai, M. Zhou, Deformation-induced blueshift in emission spectrum of CdTe quantum dot composites, Composites Part B: Engineering, 120(1):54, 2017. doi.
  2. Fei Shuang, Pan Xiao*, Fujiu Ke, Yilong Bai, Efficiency and fidelity of molecular simulations relevant to dislocation evolutions, Computational Materials Science, 139C, 266-272, 2017.
  3. R. Yang, Q. Zhang, P. Xiao, J. Wang and Y. L. Bai, Two opposite size effects of hardness at real nano-scale and their distinct origins, Scientific Reports 7(16053), 2017. doi
  4. P. Xiao, Z. T. Kang, A. A. Bansihev, J. Breidenich, D. A. Scripka, J. Christensen, C.r J. Summers, D. D. Dlott, N. N. Thadhani, and M. Zhou, Laser-excited optical emission response of CdTe quantum dot/polymer nanocomposite under shock compression. Applied Physics Letters, 108(1), 011908, 2016. doi.
  5. Z. Kang, A. A. Banishev, G. Lee, D. A. Scripka, J. Breidenich, P. Xiao, J. Christensen, M. Zhou, C. J. Summers, D. D. Dlott, and N. N. Thadhani. Exploration of CdTe quantum dots as mesoscale pressure sensors via time-resolved shock-compression photoluminescent emission spectroscopy. Journal of Applied Physics, 120, 043107 (2016). doi.
  6. P. Xiao, J. Wang, R. Yang, F. J. Ke, Y. L. Bai. Transition of Mechanisms Underlying the Rate Effects and Its Significance. Computational Materials Science 98(2015):70-75, 2015. doi.
  7. P. Xiao, J. Wang, R. Yang, F. J. Ke, M. F. Xia, Y. L. Bai. Rate Effect and Coupled Evolution of Atomic Motions and Potential Landscapes. Acta Mechanica Sinica, 29(5):676-681, 2013. doi.
  8. P. Xiao, J. Wang, F. J. Ke, Y. L. Bai. Molecular statistical thermodynamics – A Distinct and Efficient Numerical Approach to Quasi-static Analysis of Nanomaterials at Finite Temperature. Composites Part B: Engineering, 43(1):57-63, 2012. doi.
  9. P. Xiao, R. Yang, J. Wang, F. J. Ke, Y. L. Bai. Development of the Molecule Statistical Thermodynamics (MST) Parallel Simulation Package. e-Science Technology & Application, 3:15-23, 2012.
  10. J. Wang, C. Lu, Q. Wang, P. Xiao, F.J. Ke, Y.L. Bai, Y.G. Shen, X.Z. Liao, H. Gao. Influence of Microstructures on Mechanical Behaviours of SiC Nanowires: A Molecular Dynamics Study, Nanotechnology, 23: 025703, 2012. doi.
  11. J. Wang, C. Lu, Q. Wang, P. Xiao, F.J. Ke, Y.L. Bai, Y.G. Shen, Y.B. Wang, X.Z. Liao, H. Gao. Self-Healing of Fractured One Dimensional Brittle Nanostructures. Europhysics Letters, 98:16010, 2012. doi.
  12. J. Wang, C. S. Lu, Q. Wang, P. Xiao, F. J. Ke, Y. L. Bai, Y. G. Shen, Y. B. Wang. Self-Healing in Fractured GaAs Nanowires. Acta Materialia, 60:5593-5600, 2012. doi.
  13. M. R. He, P. Xiao, J. Zhao, S. Dai, F. J. Ke, J. Zhu. Quantifying the Defect-Dominated Size Effect of Fracture Strain in Single Crystalline ZnO Nanowires. Journal of Applied Physics, 109:123504, 2011. doi.
  14. J. Wang, C. Lu, Q. Wang, P. Xiao, F.J. Ke, Y.L. Bai, Y.G. Shen, X.Z. Liao and H. Gao. Understanding Large Plastic Deformation of SiC Nanowires at Room Temperature. Europhysics Letters, 95:63003, 2011. doi.
  15. J. Wang, P. Xiao, M. Zhou, Z. R. Wang, F. J. Ke. Wurtzite-to-tetragonal Structure Phase Transformation and Size Effect in ZnO Nanorods. Journal of Applied Physics. 107(2):023512, 2010. doi.
  16. J. Wang, A.K. Soh, P. Xiao, F.J. Ke. Molecular-Dynamics Investigation on Polarization Retention of Barium Titanate Nanofilm Arising from Ordered Oxygen Vacancy. Europhysics Letters, 92:17006, 2010. doi.
  17. P. Xiao, X. Wang, J. Wang, F. J. Ke, M. Zhou, Y. L. Bai. Surface Transformation and Inversion Domain Boundaries in Gallium Nitride Nanorods. Applied Physics Letters, 95(21):211907, 2009. doi.

    会议论文

  18. P. Xiao, J. Wang, F. J. Ke, M. F. Xia, Y. L. Bai. Application of Molecular Statistical Thermodynamics to Uniaxial Tension of ZnO Nanorod. Proceedings of the 22nd International Congress of Theoretical and Applied Mechanics, Springer, paper id: 11169, 2008.

  19. P. Xiao, J. Wang, M. Zhou, F. J. Ke, Y. L. Bai. Effect of Vacancies on the Ultimate Tensile Strain of ZnO Nanowires. Proceedings of the 23rd International Congress of Theoretical and Applied Mechanics, paper id: MS06-023, 2014.

软件登记

  1. 肖攀, Molecule Statistical Thermodynamics Simulator, 登记号:2011SR003778, 2011. (3.5万行代码)
  2. 肖攀, Moleshow - An Effect Molecular Visualization and Analysis Tool, 登记号:2014SR126054, 2014. (2.8万行代码)

会议报告

  1. P. Xiao, et al. 2013 Society of Engineering Science (SES2013) Annual Meeting, 26-31 July (2013), Providence, USA.
  2. P. Xiao, et al. XXIII ICTAM, 19-24 August (2012), Beijing, China.
  3. P. Xiao, et al. XXII ICTAM, 25-29 August (2008), Adelaide, Australia.
  4. P. Xiao, et al. ChinaNano 2009, August (2009), Beijing, China.
  5. P. Xiao, et al. Super Computing Applications, November (2011), Qingdao, China.
  6. P. Xiao, et al. Workshop on Computational Problems in Materials Science, 21-24 August (2013), Suzhou, China.
  7. P. Xiao, et al. Workshop on Computational Problems in Materials Science, 16-18 October (2015), Changsha, China.