Manufacturing Engineering

  • Advanced Machining Technology Laboratory (AMT Lab)
  • Micro Manufacturing Technology Laboratory
  • Laser Micro/Nano Fabrication Laboratory
  • Digital Manufacturing Laboratory
  • Institute of Detection and Control
  • The Institute of Industrial and Systems Engineering (IISE)
  • The Institute of Mechatronics
  • Li Xin

     

    NAME

    Li Xin

     

    TITLE

    Professor

    SCHOOL

    School of Mechanical Engineering

    DEPARTMENT

    Manufacturing Engineering

    OFFICE ADDRESS

    Room 143, Teaching Building No.1, Beijing Institute of Technology

    POST CODE

    100081

    TELEPHONE

    18911092053

    E-MAIL ADDRESS

    Lixin02@bit.edu.cn

     

    Research and Teaching Interest

    Our research is focused on Laser micro/nano Fabrication and Interface Science and Technology. A multiscale modeling is preliminarily established for ultrafast laser pulse train processing of metals. And an improved plasma model is proposed to describe the femtosecond laser induced nanostructures.

    Selected Publications and patents

    1. X.S. Shi, X. Li, L. Jiang, L.T. Qu, Y. Zhao, P. Ran, Q.S. Wang, Q. Cao, T.B. Ma and Y.F. Lu, "Femtosecond laser rapid fabrication of large-area rose-like micropatterns on freestanding flexible graphene films", Scientific Reports, (2015).
    2. Q.Q. Yang, X. Li, L. Jiang, N. Zhang, G.M. Zhang, X.S. Shi, K.H. Zhang, J. Hu, and Y.F. Lu, "Nanopillar arrays with nanoparticles fabricated by a femtosecond laser pulse train for highly sensitive SERRS", Optics Letters, 40(9), 2045-2048 (2015).
    3. X. Li, G.M. Zhang, L. Jiang, X.S. Shi, K.H. Zhang, W.L. Rong, J.A. Duan, and Y.F. Lu, "Production rate enhancement of size-tunable silicon nanoparticles by temporally shaping a femtosecond laser in ethanol", Optics Express, 23(4), 4226-4232 (2015).
    4. P. Feng, L. Jiang, Xin Li, W.L. Rong, K.H. Zhang, and Q. Cao, "Gold-film coating assisted femtosecond laser fabrication of large-area, uniform periodic surface structures", Applied Optics, 54(6), 1314-1319 (2015).
    5. X. Li, W.L. Rong, L. Jiang, K.H. Zhang, C. Li, Q. Cao, G.M. Zhang, and Y.F. Lu, "Generation and elimination of polarization-dependent ablation of cubic crystals by femtosecond laser radiation", Optics Express, 22(24), 30170-30176 (2014).
    6. K.H. Zhang, L. Jiang, X. Li, X.S. Shi, D. Yu, L.T. Qu, and Y.F. Lu, "Femtosecond laser pulse-train induced breakdown in fused silica: the role of seed electrons", Journal of Physics D: Applied Physics, 47, 435105 (2014).
    7. X.S. Shi, L. Jiang, X. Li, K.H. Zhang, D. Yu, Y.W. Yu, and Y.F. Lu, "Temporal femtosecond pulse shaping dependence of laser-induced periodic surface structures in fused silica", Journal of Applied Physics, 116, 033104 (2014).
    8. X. Li, C. Li, L. Jiang, X.S Shi, N. Zhang, and Y.F. Lu, "Ablation area quasiperiodic oscillations in semiconductors with femtosecond laser double pulse delay", Optics Letters, 39(9), 2382-2385 (2014).
    9. C. Wang, L. Jiang, X. Li, F. Wang, Y.P. Yuan, L. Yuan, L.T. Qu, and J. A. Duan, "Frequency dependence of electron dynamics during femtosecond laser resonant photoionization of Li4 cluster", Journal of Applied Physics, 114(14), 143105 (2013).
    10. X.S. Shi, L. Jiang, X. Li, S.M. Wang, Y.P. Yuan, and Y.F. Lu, "Femtosecond laser-induced periodic structures adjustments based on electron dynamics control: from subwavelength ripples to double-grating structures", Optics Letters, 38(19), 3743-3746 (2013).
    11. N. Zhang, X. Li, L. Jiang, X.S. Shi, C. Li, and Y.F. Lu, "Femtosecond double-pulse fabrication of hierarchical nanostructures based on electron dynamics control for high surface-enhanced Raman scattering", Optics Letters, 38(18), 3558-3561 (2013).
    12. Y.P. Yuan, L. Jiang, X. Li, C. Wang, L. Yuan, L.T. Qu, and Y.F. Lu, "Adjustments of dielectrics craters and their surfaces by ultrafast laser pulse train based on localized electron dynamics control", Applied Optics, 52(17), 4035-4041 (2013).
    13. Y.P. Yuan, L. Jiang, X. Li, C. Wang, L.T. Qu, and Y.F. Lu, "Simulation of rippled structure adjustments based on localized transient electron dynamics control by femtosecond laser pulse trains", Applied Physics A, 111(3), 813-819 (2013).
    14. C. Wang, L. Jiang, X. Li, F. Wang, Y.P. Yuan, L.T. Qu, and Y.F. Lu, "Nonlinear ionization mechanism dependence of energy absorption in diamond under femtosecond laser irradiation", Journal of Applied Physics, 113, 143106 (2013).
    15. C. Wang, L. Jiang, F. Wang, X. Li, Y.P. Yuan, H. Xiao, H.L. Tsai, and Y.F. Lu, "First-principles electron dynamics control simulation of diamond under femtosecond laser pulse train irradiation", Journal of Physics-Condensed Matter, 24(27), 275801 (2012).
    16. X. Li and L. Jiang, "Size distributions control of metal nanoparticles using femtosecond laser pulse train: A molecular dynamics simulation", Applied Physics A, 109(2), 367-376 (2012).
    17. L. Jiang, X.S. Shi, X. Li, Y.P. Yuan, C. Wang, and Y.F. Lu, "Subwavelength ripples adjustment based on electron dynamics control by using shaped ultrafast laser pulse trains", Optics Express, 20(19), 21505-21511 (2012).
    18. L. Jiang, D.W. Ying, X. Li, and Y.F. Lu, "Two-step femtosecond laser pulse train fabrication of nanostructured substrates for highly surface-enhanced Raman scattering", Optics Letters, 37(17), 3648-3650 (2012).
    19. C. Wang, L. Jiang, F. Wang, X. Li, Y.P. Yuan, L.T. Qu, and Y.F. Lu, "Transient localized electron dynamics simulation during femtosecond laser tunnel ionization of diamond", Physics Letters A, 376(45), 3327-3331 (2012).
    20. N. Leng, L. Jiang, X. Li, C.C. Xu, P.J. Liu, and Y.F. Lu, "Femtosecond laser processing of fused silica and aluminum based on electron dynamics control by shaping pulse trains", Applied Physics A, 109(3), 679-684 (2012).
    21. Y.P. Yuan, L. Jiang, X. Li, C. Wang, and Y.F. Lu, "Adjustment of ablation shapes and subwavelength ripples based on electron dynamics control by designing femtosecond laser pulse trains", Journal of Applied Physics, 112(10), 3327-3331 (2012).
    22. Y.P. Yuan, L. Jiang, X. Li, C. Wang, H. Xiao, Y.F. Lu, and H.L. Tsai, "Formation mechanisms of sub-wavelength ripples during femtosecond laser pulse trains processing of dielectrics", Journal of Physics D: Applied Physics, 45(17), 175301 (2012).
    23. C. Wang, L. Jiang, F. Wang, X. Li, Y.P. Yuan, and H.L. Tsai, "First-principles calculations of the electron dynamics during femtosecond laser pulse train material interactions", Physics Letters A, 36(22), 3200-3204 (2011).

    Achievements and Awards

    The first prize of Natural Science Award of Ministry of Education(Rank Second, 2014)

    Program for New Century Excellent Talents in University of Ministry of Education of China (2013)

    The first prize of Natural Science Award of Ministry of Education (Rank Sixth, 2011)

    Professional Membership/Academic Appointments