徐凡

发布时间:2022-02-25浏览次数:77


教育经历

2005.09-2009.07 武汉大学,工程力学,学士

2009.09-2010.07 法国国立工艺学院(CNAM),项目管理,硕士

2010.09-2011.07 巴黎高科国立高等工程技术学校(Arts et Métiers ParisTech),固体力学,硕士

2011.09-2014.11 法国洛林大学,固体力学,博士


工作经历

2014.12-2015.11 法国国家科学研究中心(LEM3-UMR CNRS),博士后

2015.12-2018.11 复旦大学,航空航天系,青年研究员,博士生导师

2016.06-2019.07 法国国家科学研究中心(LEM3-UMR CNRS),访问学者(多次)

2017.07-2017.08 香港城市大学,数学系,Research Fellow

2018.12-至今 复旦大学,航空航天系,教授,博士生导师


学术组织任职

上海市力学学会常务理事

中国力学学会青年工作委员会委员

中国力学学会软物质力学工作组组员

中国力学学会微纳米力学工作组组员

《Int. J. Nonlinear Mech.》客座编辑

《J. Micromech. Molecular Phys.》副编辑

《Materials》编委

《力学进展》青年编委

《力学与实践》青年编委

《Int. J. Comput. Mater. Sci. Eng.》编委

欧洲力学学会(EUROMECH)会员


获奖及人才计划

国家优秀青年科学基金,2021

上海市教委“曙光学者”2021

上海市人才发展资金,2020

上海市青年科技启明星,2019

复旦大学“卓越2025”人才培育计划“卓学优秀人才”,2019

“中国十大新锐科技人物”,2018

科技部“中法杰出青年科研人员交流计划”,2018

上海市力学学会优秀青年学者,2018

美国机械工程师协会(ASME)法国分部青年研究员论文奖(ASME Prize, French section),2016

上海市教委“晨光学者”,2016

教育部“国家优秀自费留学生奖学金”,2014


研究领域

软物质与柔性结构力学,薄膜力学,智能材料力学,计算固体力学,材料与结构稳定性


主持的科研项目

国家优秀青年科学基金(12122204),国家自然科学基金面上项目(11872150),青年科学基金项目(11602058),科技部“中法杰出青年科研人员交流计划”项目(2018Sino-France001),上海市教委“曙光计划”项目(21SG05),“上海市青年科技启明星计划”项目(19QA1400500),上海市人才发展资金资助计划,上海市教委“晨光计划”项目(16CG01),机械结构强度与振动国家重点实验室开放课题项目(SV2018-KF-17),上海市基础研究特区计划项目(21TQ010),复旦大学“卓越2025”人才培育计划“卓学优秀人才”项目,集成攻关大平台“旦芯人才计划”项目,复旦大学原创科研个性化项目,复旦大学引进人才科研启动项目


开设过的课程

研究生课程:结构强度与稳定性(54学时),材料非线性力学行为(54学时),柔性结构与软材料力学(54学时)

本科生课程:固体力学基础(54学时),板壳理论(36学时),结构力学(36学时)


代表性论文

[1]  Fan Xu*, Chenbo Fu, Yifan Yang. Water affects morphogenesis of growing aquatic plant leaves.Physical Review Letters, 124: 038003-1038003-6, 2020. (Cover, 封面文章)

  • Selected for an “Editors’ Suggestion” and a Focus in Physics13, 8. (被选为编辑推荐,被美国物理学会Physics网站专题评论报道)

  • Highlighted by Nature 578, 10 (2020). (被《自然》以研究亮点报道)

  • Featured in Physics Buzz, PhysOrg, PhysicsWorld.

[2]  Yifan Yang, Hui-Hui, Dai, Fan Xu*, Michel Potier-Ferry. Pattern transitions in a soft cylindrical shell. Physical Review Letters, 120: 215503-1215503-5, 2018.

  • Highlighted as Picture Story (Roll up your sleeves) by Nature Physics14, 534 (2018). (被《自然物理》专题评论报道)

[3]  Liyuan Wang#, Songlin Xie#, Zhiyuan Wang#, Fei Liu, Yifan Yang, Chengqiang Tang, Xiaoying Wu, Peng Liu, Yongjing Li, Hexige Saiyin, Shuang Zheng, Xuemei Sun*, Fan Xu*, Hongbo Yu*, Huisheng Peng*. Functionalized helical fibre bundles of carbon nanotubes as electrochemical sensors for long-term in vivo monitoring of multiple disease biomarkers. Nature Biomedical Engineering, 4: 159–171, 2020. (ESI高被引论文)

  • Highlighted as News & Views (Soft and fibrous multiplexed biosensors) by Nature Biomedical Engineering,4, 135136 (2020). (被《自然生物医学工程》专题评论报道)

[4]  Fan Xu*, Shichen Zhao, Conghua Lu, Michel Potier-Ferry. Pattern selection in core-shell spheres. Journal of the Mechanics and Physics of Solids, 137: 103892-1–103892-14, 2020.

[5]  Mingda Ding, Fan Xu*, Ting Wang, Chenbo Fu. Nanosleeves: Morphology transitions of infilled carbon nanotubes. Journal of the Mechanics and Physics of Solids, 152: 104398-1–104398-19, 2021.

[6]  Ting Wang#, Yifan Yang#, Chenbo Fu#, Fei Liu, Kui Wang, Fan Xu*. Wrinkling and smoothing of a soft shell. Journal of the Mechanics and Physics of Solids, 134: 103738-1–103738-20, 2020.

[7]  Fan Xu*, Michel Potier-Ferry. On axisymmetric/diamond-like mode transitions in axially compressed core-shell cylinders. Journal of the Mechanics and Physics of Solids, 94: 68–87, 2016.

[8]  Fan Xu*, Michel Potier-Ferry. A multi-scale modeling framework for instabilities of film/substrate systems. Journal of the Mechanics and Physics of Solids, 86: 150–172, 2016.

[9]  Chenbo Fu, Ting Wang, Fan Xu*, Yongzhong Huo*, Michel Potier-Ferry. A modeling and resolution framework for wrinkling in hyperelastic sheets at finite membrane strain. Journal of the Mechanics and Physics of Solids, 124: 446–470, 2019.

[10] Ting Wang#, Fei Liu#, Chenbo Fu#, Xiaoliang Zhang, Kui Wang, Fan Xu*. Curvature tunes wrinkling in shells. International Journal of Engineering Science, 164: 103490-1103490-20, 2021.

  • Highlighted (Mathematically exploring wrinkle evolution) by Nature Computaitonal Science, 1, 388 (2021). (被《自然计算科学》以研究亮点报道)

[11]  Ting Wang, Chenbo Fu, Fan Xu*, Yongzhong Huo, Michel Potier-Ferry. On the wrinkling and restabilization of highly stretched sheets. International Journal of Engineering Science, 136: 116, 2019.

[12]  Yifan Yang, Chenbo Fu, Fan Xu*. A finite strain model predicts oblique wrinkles in stretched anisotropic films. International Journal of Engineering Science, 155: 103354-1–103354-14, 2020.

[13]  Diandian Gu, Hui-Hui Dai, Fan Xu*. Buckling of an elastic layer based on implicit constitution: Incremental theory and numerical framework. International Journal of Engineering Science, 169: 103568-1–103568-17, 2021.

[14] Shichen Zhao#, Fan Xu#*, Chenbo Fu#, Yongzhong Huo*. Oblique wrinkling patterns on liquid crystal polymer core-shell cylinders under thermal load. International Journal of Solids and Structures, 208-209: 181–193, 2021.

[15]  Fan Xu*, Radhi Abdelmoula, Michel Potier-Ferry. On the buckling and post-buckling of core-shell cylinders under thermal loading. International Journal of Solids and Structures, 126-127: 17–36, 2017.

[16]  Fan Xu*, Yao Koustawa, Michel Potier-Ferry, Salim Belouettar. Instabilities in thin films on hyperelastic substrates by 3D finite elements. International Journal of Solids and Structures, 69-70: 71–85, 2015.

[17]  Fan Xu*, Michel Potier-Ferry, Salim Belouettar, Yu Cong. 3D finiteelementmodeling for instabilities in thin films on soft substrates. International Journal of Solids and Structures, 51: 36193632, 2014.

[18]  Fan Xu*, Heng Hu, Michel Potier-Ferry, Salim Belouettar. Bridging techniques in a multi-scale modeling of pattern formation. International Journal of Solids and Structures, 51: 3119–3134, 2014.

[19]  Chenbo Fu, Fan Xu*, Yongzhong Huo*. Photo-controlled patterned wrinkling of liquid crystalline polymer films on compliant substrates. International Journal of Solids and Structures, 132-133: 264277, 2018.

[20]  Chenbo Fu, Hui-Hui Dai, Fan Xu*. Computing wrinkling and restabilization of stretched sheets based on a consistent finite-strain plate theory. Computer Methods in Applied Mechanics and Engineering, 384: 113986-1–113986-17, 2021.

[21]  Fan Xu*, Shichen Zhao. Thermal wrinkling of liquid crystal polymer shell/core spheres. Extreme Mechanics Letters, 40: 100860-1–100860-11, 2020.

[22]  Fei Liu, Fan Xu*, Chenbo Fu. Orientable wrinkles in stretched orthotropic films. Extreme Mechanics Letters, 33: 100579-1–100579-9, 2019.

[23]  Mingda Ding, Yu Cong, Ruiyang Li, Fan Xu*. Effect of surface topography on anisotropic friction of graphene layers. Extreme Mechanics Letters, 40: 100988-1–100988-11, 2020.

[24] Shichen Zhao#, Fan Xu#*, Chenbo Fu#, Yongzhong Huo*. Controllable wrinkling patterns on liquid crystal polymer film/substrate systems by laser illumination. Extreme Mechanics Letters, 30: 100502-1–100502-12, 2019.

[25]  Shixiong Yu, Lele Li, Juanjuan Wang, Enping Liu, Jingxin Zhao, Fan Xu*, Yanping Cao*, Conghua Lu*. Light-boosting highly sensitive pressure sensors based on bioinspired multiscale surface structures. Advanced Functional Materials, 30: 1907091-1–1907091-11, 2020.

[26]  Zhe Cheng, Fan Xu*. Intricate evolutions of multiple-period post-buckling patterns in bilayers. SCIENCE CHINA Physics, Mechanics & Astronomy, 64: 214611-1–214611-10, 2021.

[27] Ting Wang#, Yifan Yang#, Chenbo Fu#, Fan Xu*. Competition between Mullins and curvature effects in the wrinkling of stretched soft shells. International Journal of Solids and Structures, 241: 111473-1–111473-9, 2022.


论文清单详见http://morphomech.com


软物质与柔性结构力学课题组探索软材料和柔性结构大变形失稳,膜基系统表面起皱,多尺度建模计算,超材料力学和薄膜力学等前沿而有趣的问题。提倡理论分析、数值计算与实验相结合,分析软材料与柔性结构大变形力学行为,揭示几何、本构、拓扑微结构等对变形行为影响机制,应用于形貌调控和仿生结构器件设计。欢迎专业背景为力学、航空航天、机械、材料、物理等相关专业的同学加入课题组,团队长期招聘博士后、博士和硕士研究生。课题组主页:http://morphomech.com