工程力学系
电子邮件:songlin.shi@sjtu.edu.cn
通讯地址:木兰船建大楼A815
工作经历
2026.01-至今,上海交通大学,船建学院,长聘教轨副教授
2021.09-2026.01,希伯来大学,物理研究所,博士后
教育经历
2015.09-2021.06,清华大学,航天航空学院,博士
2011.09-2015.06,北京航空航天大学,航空科学与工程学院,学士
长期致力于界面力学方向的前沿研究,主要包括:
1,复杂界面的断裂与摩擦
2,界面润湿与流动
3,界面结冰、除冰与破冰
1. Songlin Shi, Jay Fineberg*. Interplay of cohesive, Griffith, and geometric scales in the nucleation of friction. Physical Review Letters 136,7 (2026): 076203.
2. Songlin Shi, Jay Fineberg*. Concurrent slow and fast frictional ruptures in laboratory earthquakes. Nature Physics. 21,6 (2025): 1019-1025.
3. Songlin Shi, Chen Ma, Steffen Hardt*, and Cunjing Lv*. Leidenfrost propulsion on symmetric textured surfaces via spontaneous symmetry breaking. Science Advances. 11,17 (2025): eadt6677.
4. Songlin Shi#, Hechen Xu#, Hongcheng Du, Pengfei Hao, and Cunjing Lv*. Aerodynamic repellency of impacting water drops on inclined superhydrophobic surfaces. Physics of Fluids. 37,8 (2025): 082115.
5. Yonatan Poles, Songlin Shi, and Jay Fineberg*. Slip-pulses drive frictional motion of dissimilar materials: Universality, dynamics, and evolution. Proceedings of the National Academy of Sciences. 121,46 (2024): e2411959121.
6. Songlin Shi, Meng Wang, Yonatan Poles, and Jay Fineberg*. How frictional slip evolves. Nature Communications 14 (2023): 8291.
7. Meng Wang, Songlin Shi, and Jay Fineberg*. Tensile cracks can shatter classical speed limits. Science 381,6656 (2023): 415-419.
8. Donovan Chaffart, Songlin Shi, Chen Ma, Cunjing Lv, and Luis A. Ricardez-Sandoval*. A semi-empirical force balance-based model to capture sessile droplet spread on smooth surfaces: A moving front kinetic Monte Carlo study. Physics of Fluids 35,3 (2023): 032109.
9. Jing Lou, Songlin Shi, Chen Ma, Xiaohuan Zhou, Dong Huang, Quanshui Zheng, and Cunjing Lv*. Polygonal non-wetting droplets on microtextured surfaces. Nature Communications 13,1 (2022): 2685.
10. Bin Zhang, Vatsal Sanjay, Songlin Shi, Yinggang Zhao, Cunjing Lv*, Xi-Qiao Feng, and Detlef Lohse. Impact forces of water drops falling on superhydrophobic surfaces. Physical Review Letters 129,10 (2022): 104501.
11. Cangyu Qu*, Diwei Shi, Li Chen, Zhanghui Wu, Jin Wang, Songlin Shi, Enlai Gao, Zhiping Xu, and Quanshui Zheng*. Anisotropic fracture of graphene revealed by surface steps on graphite. Physical Review Letters 129,2 (2022): 026101.
12. Donovan Chaffart, Songlin Shi, Chen Ma, Cunjing Lv, and Luis A. Ricardez-Sandoval*. A moving front kinetic Monte Carlo algorithm for moving interface systems. The Journal of Physical Chemistry B 126,9 (2022): 2040-2059.
13. Jing Lou, Songin Shi, Chen Ma, Cunjing Lv*, and Quanshui Zheng*. Suspended penetration wetting state of droplets on microstructured surfaces. Science China Physics, Mechanics & Astronomy 64,4 (2021): 244711.
14. Songlin Shi, Cunjing Lv*, and Quanshui Zheng. Temperature-regulated adhesion of impacting drops on nano/microtextured monostable superrepellent surfaces. Soft Matter 16,23 (2020): 5388-5397.
15. Songlin Shi, Jinlong Song, Bin Zhang, Chen Ma, Pan Jia, and Cunjing Lv*. Capillary drainage of a sessile droplet through a hole. Physical Review Fluids 5,10 (2020): 104002.
16. Yongquan Qing, Songlin Shi, Cunjing Lv, and Quanshui Zheng*. Microskeleton‐nanofiller composite with mechanical super‐robust superhydrophobicity against abrasion and impact. Advanced Functional Materials 30,39 (2020): 1910665.
17. Shuji Zhao, Songlin Shi, Kailun Xia, Tao Wang, Maosheng Chai, Yingying Zhang, Cangyu Qu*, and Quanshui Zheng*. Scratching of graphene-coated Cu substrates leads to hardened Cu interfaces with enhanced lubricity. ACS Applied Nano Materials 3, 2 (2020): 1992-1998.
18. Cunjing Lv*, Bin Zhang, Songlin Shi, and Pengfei Hao. Effects of geometric confinement on zero-gravity droplets between two parallel planes. Langmuir 36,43 (2020): 12838-12848.
19. Songlin Shi, Cunjing Lv*, and Quanshui Zheng*. Drop impact on two-tier monostable superrepellent surfaces. ACS Applied Materials & Interfaces 11,46 (2019): 43698-43707.
20. Cangyu Qu, Songlin Shi, Ming Ma, and Quanshui Zheng*. Rotational instability in superlubric joints. Physical Review Letters 122,24 (2019): 246101.
21. Zhe Yin, Songlin Shi, Xiaoping Liang, Mingchao Zhang, Quanshui Zheng, and Yingying Zhang*. Sweat-driven silk-yarn switches enabled by highly aligned gaps for air-conditioning textiles. Advanced Fiber Materials 1 (2019): 197-204.
22. Cunjing Lv*, and Songlin Shi. Wetting states of two-dimensional drops under gravity. Physical Review E 98, 4 (2018): 042802.
