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基本信息

 
李寅峰
工程力学系
固定电话:021-34207649
电子邮件-Email:liyinfeng@sjtu.edu.cn
通讯地址:上海市东川路船建学院木兰楼A905
个人主页:http://scholar.google.com/citations?user=6oT9fW8AAAAJ&hl=en

个人简历

 
工作经历:
2017/12-现在 上海交通大学,船舶海洋与建筑工程学院工程力学系,副教授、硕士生导师
2014/03-2017/12 上海交通大学,船舶海洋与建筑工程学院工程力学系,讲师、硕士生导师

学习经历:
2008/09-2014/01 上海交通大学,工程力学系,博士研究生(导师:李中华教授)
2010/08-2012/08 美国布朗大学,工学院,联合培养博士生 (导师:高华健院士)
2004/09-2008/08 中国矿业大学, 工程力学系,学士(专业第一)

访学交流:
2017/8-2017/12 香港理工大学,机械系(姚海民课题组),访问学者
2016/12-2017/02 香港大学,机械系(黄明欣课题组),访问学者
2016/11-2016/12 香港理工大学,机械系(姚海民课题组),访问学者

研究方向

 
研究致力于材料与生物系统中有关夹杂及界面问题的力学表征,结合多尺度计算、理论、实验多种手段聚焦了金属、纳米、生物材料的力学、热学性能及其调控,揭示了微、纳米尺度下材料的一些奇异的力学行为,并用力学的方法和思想阐明纳米材料和性能行为机制,有丰富的前沿科学交叉研究的经验,具备扎实的理论功底和多样的研究手段。
入选上海市晨光计划、上海交大晨星计划,曾入围中国力学学会托举计划、获国际先进材料协会2018年度科学家奖、教育部学术新人奖、上海市优博论文、上海市力学学会优秀青年学者、上海交通大学青年能手等称号。已在美国科学院院刊PNAS、固体力学顶级刊物JMPS及Nanoscale、Carbon等刊物发表SCI论文30篇,被引500余次,主持国家自然科学基金,承担本科材料力学教学,课外指导多项国家级大学生创新实践及PRP项目,推荐多名本科生赴海外名校(布朗大学、佐治亚理工、宾大)读研深造。
Dr. Yinfeng Li received the Ph.D. degree from the department of engineering mechanics at Shanghai Jiao Tong University in 2014, and now serves as an associate professor there. He has focused on the understanding of basic principles that control mechanical properties and behaviors of materials in both micro- and nano-scale. In particular, the mechanical and biological behaviors of low dimensional materials that mainly involve 0- and 2-Dimensions (ranging from nanoparticles to graphene, boron nitride and CBN planar and epitaxial heterostructure). Based on the nature of the studied subjects, the continuum theory, molecule dynamics method and density functional theory calculations are employed, and a series of new models, solutions and observations is drawn. Even in his early academic career, Dr. Li has published 30 SCI indexed papers in high impact journals with more than 550 citations, including PNAS, JMPS, Carbon, Nanoscale, Acta Mater, Compos Sci Technol, etc. He has been selected in Shanghai Chenguang talent project and awarded the prestigious 'IAAM Scientist Medal' by International Association of Advanced Materials for notable and outstanding research in his field.

学术兼职

 
2017-现在 国际先进材料学会会员(IAAM)
2015-现在 上海力学学会青年委员会委员
2014-现在 中国力学学会 会员
2010年-2013年 美国物理协会 会员

科研项目

 
1) 2015-2017,自然科学基金委青年项目,表面改性对纳米材料穿透细胞膜能力的影响及机理表征,项目负责人
2) 2015-2017,上海市教委‘晨光计划’,表面改性对纳米材料穿透细胞膜能力的机理探究,项目负责人
3) 2014-2015,南京航空航天大学教育部重点实验室开放课题,表面改性对纳米颗粒穿透细胞膜能力的影响,项目负责人
4) 2017-2018,海洋国家重点实验室开放课题,缺口疲劳裂纹扩展的力学表征,项目负责人
5) 2014-2016,上海交通大学青年人才启动基金,氢化作用调控碳纳米材料力学性能的机理表征,项目负责人
6) 2016-2018,上海交通大学多学科交叉培育(医工),姜黄素Ⅲ脂质体对纳米介导IκBα突变体基因表达的前列腺癌细胞诱导凋亡效应增敏作用及其机制研究,项目第二负责人
7) 2018-2020,上海交通大学多学科交叉培育(医工),5-Fu柔性纳米脂质体在大鼠肝癌模型体内的靶向分布及抑瘤作用的研究,项目第二负责人
8) 2016-2019,上海交通大学青年人才科研能力培育专项,二维纳米材料力学性能和生物行为的力学表征与调控,项目负责人
8) 2018-2021,上海市自然科学基金,石墨烯改性及杂化结构的力学行为探究,项目负责人

代表性论文及专著

 
在 PNAS, JMPS, Acta Mater., Carbon, Nanoscale, Compos. Sci. Technol.等期刊发表SCI论文30篇. SCI引用总数480次,H-index=9.
Selected publications:
1. Li Y, Yuan H, Bussche A, Creighton M, Hurt RH, Kane AB, Gao H*. Graphene microsheets enter cells through spontaneous membrane penetration at edge asperities and corner sites. Proc Nat Acad Sci, 2013; 110 (30) :12295–12300. (IF: 9.803, ESI高引收录)
2. Li Y, Li X, Li Z, Gao H*. Surface-structure-regulated penetration of nanoparticles across a cell membrance. Nanoscale, 2012; 4:3768-3775. (IF: 6.233)
3. Li Y, Li Z*, Wang X, Sun J. Analytical solution for motion of an elliptical inclusion in gradient stress field. J. Mech. Phys. Solids, 2010;58(7):1001-10.(IF: 3.732)
4. Li Y*, D. Datta, and Z. Li, Anomalous mechanical characteristics of graphene with tilt grain boundaries tuned by hydrogenation. Carbon, 2015;90(0):234-41. (IF: 6.337)
5. Li Y, Wei A, Ye H, Yao H. Mechanical and thermal properties of grain boundary in a planar heterostructure of graphene and hexagonal boron nitride. Nanoscale. 2018;10(7):3497-508. (IF: 7.367)

2018
24. Y Li, S Lahkar, Q Wei, P Qiao, H Ye. Strength nature of two-dimensional woven nanofabrics under biaxial tension. International Journal of Damage Mechanics, 1056789518769343. (IF: 1.783)
23. Yang J, Wang Y, Li Y, Gao H, Chai Y, Yao H. Edge orientations of mechanically exfoliated anisotropic two-dimensional materials. J. Mech. Phys. Solids, 2018, 112:157-168. (IF: 4.255)

2017
22. Li Y*, Wei A, Datta D. Thermal characteristics of graphene nanoribbons endorsed by surface functionalization. Carbon, 2017, 113, 274-282. (Impact Factor: 6.337)
21. Lin Q, Li Y*, Yao H. Tunable in-plane torsional strength of surface functionalized two dimensional nanomaterials. Phys Chem Chem Phys, 2017, 19(30): 20049-20056. (IF: 4.123)
20. Li Y*, Lin Q, Li Y, Cui D. Tunable thermal conductivities of graphene and graphyne under in-plane torsion. RSC Advances, 2017, 7(86): 54734-54740. (IF: 3.108)
19. Li Y*, Lin Q, Cui D. Boundary-dependent mechanical properties of graphene annular under in-plane circular shearing via atomistic simulations. Sci Rep, 2017, 7, 41767. (IF: 4.259)
18. Wei A, Li Y*, Datta D, Guo H, Lv Z. Mechanical properties of graphene grain boundary and hexagonal boron nitride lateral heterostructure with controlled domain size. Computational Materials Science, 2017, 126, 474-478. (IF: 2.292)
17. Wei A, Li Yi*,Li Y,Ye H. Thermal characteristics of graphene nanosheet with graphane domains of varying morphologies. Computational Materials Science, 2017, 138:192-198. (IF: 2.292)
16. Li Y*, Zhang W, Guo B, Datta D. Interlayer shear of nanomaterials: Graphene–graphene, boron nitride–boron nitride and graphene–boron nitride. Acta Mech Solida Sin, 2017, 30(3): 234-240. (IF: 0.736)
15. Chai H, Ye H, Yu Z, Liu Y, Li Y. Electronic structures of uncapped In(Ga)As nanoislands grown on pit-patterned GaAs(001) substrate. Superlattices Microstruct, 2017, 109: 99-106. (IF: 2.123)
14. Gao H, Ye H, Yu Z, Zhang Y, Liu Y, Li Y. Point defects and composition in hexagonal group-III nitride monolayers: A first-principles calculation. Superlattices Microstruct, 2017, 112:136-142. (IF: 2.123)
13. Han D, Ye H, Yu Z, Zhang Y, Liu Y, Li Y. Influences of composition on Raman scattering from GeSi alloy core-shell nanowire heterostructures. Superlattices Microstruct,2017, 110:82-89. (IF: 2.123)

Papers published before 2016
12. Li Y*, Li S, Huang M, Li Z. Analytical solution for Coble creep in polycrystalline materials under biaxial loading. Mechanics of Materials. 2015; 91:290-4. (IF: 2.651)
11. Datta D, Nadimpalli S, Li Y, Shenoy VB*. Effect of crack length and orientation on the mixed mode fracture behavior of graphene. Extreme Mechanics Letters. 2015; 5:10-7.
10. Li Y*, Liu S, Datta D, Li Z. Surface hydrogenation regulated wrinkling and torque capability of hydrogenated graphene annulus under circular shearing. Sci Rep. 2015;5:16556. (IF: 4.259)
9. Li Y*, Li S, Li Z. Interface diffusion-induced creep and stress relaxation in unidirectional metal matrix composites under biaxial loading. Mechanics of Materials. 2014;76(0):20-6.( IF: 2.651)
8. Li Y*, Datta D,Li Z, Shenoy BV. Mechanical properties of hydrogen functionalized graphene allotropes. Computational Materials Science, 2014; 83:212-216. (IF: 2.292)
7. Li Y*, Datta D, Li S, Li Z, Shenoy VB. Patterned arrangement regulated mechanical properties of hydrogenated graphene. Computational Materials Science. 2014; 93(0):68-73. (IF: 2.292)
6. Li Y, Li Z*, Qiao P. Castigliano’s Second Theorem for Deformation Determination of a Cracked Body. Journal of Aerospace Engineering. 2014:06014006. (IF: 0.84)
5. Li Y, Li Z*. Transverse creep and stress relaxation induced by interface diffusion in unidirectional metal matrix composites. Composites Science and Technology, 2012;72:1608-1612. (IF: 3.328)
4. Li Z*, Li Y, Zhang C, Sun J. Creep and stress relaxation in free-standing thin metal films controlled by coupled surface and grain boundary diffusion. Acta Materialia, 2012;60:3057-3062. (IF: 3.941)
3. Li Y, Wang X*, Li Z. The morphological evolution and migration of inclusions in thin-film interconnects under electric loading. Composites: Part B, 2012;43: 1213-1217. (IF: 2.143)
2. Li Z*, Li Y, Sun J, Feng XQ. An approximate continuum theory for interaction between dislocation and inhomogeneity of any shape and properties. Journal of Applied Physics, 2011; 109:113529. (IF: 2.168)
1. Li Y, Li Z*, Wang X, Sun J. The creep rate induced by interface diffusion in particulate composite materials. Materials Chemistry and Physics, 2011; 131: 254-57. (IF: 2.234)

教学工作

 
EM207 材料力学 授课对象:本科生二年级
机械工程导论,授课对象:本科生四年级

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荣誉奖励

 
2018.02 IAAM Scientist Medal
2017.12 入选上海交通大学晨星讲师计划
2017.07 获上海交通大学船建学院青年教师讲课比赛二等奖
2017.05 获上海交通大学青年岗位能手称号
2016.08 入选上海交通大学晨星计划B类
2016.05 获上海市优秀博士论文
2015.12 获上海市力学学会优秀青年学者
2015.04 入选上海市晨光计划
2014.03 获上海市优秀毕业生
2012.12 获教育部博士研究生学术新人奖
2012.09 获博士研究生国家奖学金

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