徐凡

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 杏鑫平台，杏鑫登录平台，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 杏鑫平台，杏鑫登录平台🎆➙，教授🪷🛖，博士生导师

2024.08-至今 杏鑫平台😎，智能机器人与先进制造创新学院，人才培养中心👵🏼，副主任

2024.07-至今 杏鑫平台🤌🏿，基础研究发展中心👱🏽‍♂️，委员

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

中国振动工程学会理事

《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

《力学季刊》副主编

《Int. J. Comput. Mater. Sci. Eng.》编委

欧洲力学学会(EUROMECH)会员

美国数学学会(AMS)评论员

获奖及人才计划

国家杰出青年科学基金🐥🔪，2024

首届钱学森杰出青年奖🤷🏿‍♂️，2024

杏鑫平台第十一届“研究生心目中的好导师”提名👮🏻‍♂️，2024

上海市自然科学二等奖🔹，2023（第一完成人🔔，1/2）

杏鑫平台“十大科技进展”提名，2023

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

杏鑫平台“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

国家杰出青年科学基金(12425204)，国家优秀青年科学基金(12122204)✌🏽✧，国家自然科学基金面上项目(12372096，11872150)，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)，首批上海市基础研究特区计划(21TQ010)🫚，杏鑫平台“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🏋🏻‍♂️，杏鑫平台原创科研个性化项目，杏鑫平台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^*, Yangchao Huang, Shichen Zhao, Xi-Qiao Feng^*. Chiral topographic instability in shrinking spheres. Nature Computational Science, 2: 632-640, 2022. (Cover, 封面文章)

· This work has been highlighted as News & Views (Bio-inspired adaptive grasper by chiral wrinkling) byNature Comput. Sci., 2, 624–625, 2022.

[2]  Ting Wang, Zhijun Dai, Michel Potier-Ferry, Fan Xu^*. Curvature-regulated multiphase patterns in tori. Physical Review Letters, 130, 048201-1–048201-6, 2023.

· This work has been selected for a Synopsis (How Nature’s Donuts Get Their Wrinkles) in Physics 16, s5. (被美国物理学会Physics Magazine专题评论报道)

· Highlighted by Nature (A chilli’s wrinkles and a cherry’s dimples explained). (被《自然》以研究亮点报道)

[3]  Fan Xu^*, Chenbo Fu, Yifan Yang. Water affects morphogenesis of growing aquatic plant leaves.Physical Review Letters, 124: 038003-1–038003-6, 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 Magazine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.

[4]  Yifan Yang, Hui-Hui, Dai, Fan Xu^*, Michel Potier-Ferry. Pattern transitions in a soft cylindrical shell. Physical Review Letters, 120: 215503-1–215503-5, 2018.

     · Highlighted as Picture Story (Roll up your sleeves) by Nature Physics14, 534 (2018). 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, 135–136 (2020). (被《自然∙生物医学工程》专题评论报道)

[6]  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.

[7]  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.

[8]  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.

[9]  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.

[10]  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.

[11]  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.

[12]  Yafei Wang^#, Yangkun Du^#, Fan Xu*. Strain stiffening retards growth instability in residually stressed biological tissues. Journal of the Mechanics and Physics of Solids, 178: 105360-1–105360-17, 2023.

[13]  Ting Wang, Chenbo Fu, Michel Potier-Ferry, Fan Xu*. Morphomechanics of growing curled petals and leaves. Journal of the Mechanics and Physics of Solids, 184: 105534-1–105534-12, 2024.

[14]  Shizhe Feng^#, Wenxiang Wang^#, Shijun Wang, Xuwei Cui, Yifan Yang, Fan Xu^*, Luqi Liu^*, Zhiping Xu*. Controlling and visualizing fracture of 2D crystals by wrinkling. Journal of the Mechanics and Physics of Solids, 174: 105253-1–105253-14, 2023.

[15] Ting Wang^#, Fei Liu^#, Chenbo Fu^#, Xiaoliang Zhang, Kui Wang, Fan Xu^*. Curvature tunes wrinkling in shells. International Journal of Engineering Science, 164: 103490-1–103490-20, 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)

[16]  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: 1–16, 2019.

[17]  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.

[18]  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.

[19]  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.

[20] 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.

[21]  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.

[22]  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.

[23]  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: 3619–3632, 2014.

[24]  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.

[25]  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: 264–277, 2018.

[26]  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.

[27]  Fan-Fan Wang^#, Ting Wang^#, Xiaoliang Zhang, Yangchao Huang, Ivan Giorgio, Fan Xu^*. Wrinkling of twisted thin films. International Journal of Solids and Structures, 262-263: 112075-1–112075-9, 2023.

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

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

[30]  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.

[31]  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.

[32]  Enping Liu, Lele Li, Juanjuan Wang, Xue Han, Fan Xu^*, Yanping Cao^*, Conghua Lu^*. Light-Induced in-situ Dynamic Ordered Wrinkling with Arbitrarily Tailorable Wrinkling Orientation for Photoresponsive Soft Photonics. Advanced Functional Materials, 33: 2300182-1–2300182-14, 2023.

[33]  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.

[34]  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.

[35]  Ting Wang, Yifan Yang, Fan Xu^*. Mechanics of tension-induced film wrinkling and restabilization: a review. Proceedings of the Royal Society A, 478: 20220149-1–20220149-22, 2022. (Cover, 封面文章)

[36]  Enping Liu^#, Xiaoliang Zhang^#, Haipeng Ji, Qifeng Li, Lele Li, Shixiong Yu, Juanjuan Wang, Xue Han, Fan Xu^*, Yanping Cao^*, Conghua Lu^*. Polarization-dependent ultrasensitive dynamic surface wrinkling on floating films induced by photo-orientation of azopolymer. Angewandte Chemie International Edition, 61: e202203715, 2022. (hot paper)

[37]  Lele Li^#, Yang Zheng^#, Enping Liu, Xiaoxin Zhao, Shixiong Yu, Juanjuan Wang, Xue Han, Fan Xu*, Yanping Cao*, Conghua Lu*, Huajian Gao. Stretchable and ultrasensitive strain sensor based on a bilayer wrinkle-microcracking mechanism. Chemical Engineering Journal, 437: 135399-1–135399-13, 2022.

[38]  Jin Li, Xiaoliang Zhang, Zhilong Su, Tiantian Li, Zehong Wang, Shilong Dong, Fan Xu^*, Xiaodong Ma, Jie Yin, Xuesong Jiang^*. Self-wrinkling coating for impact resistance and mechanical enhancement. Science Bulletin, 68: 2200–2209, 2023.

[39]  Ruiyang Li, Yu Cong^*, Fan Xu^*. Tunable Tail Swing of Nanomillipedes. Nano Letters, 23: 10879–10883, 2023. (Cover, 封面文章)

[40]  Junting Liu^#, Yifan Yang^#, Maoyuan Li, Fan Xu^*. A meshfree model of hard-magnetic soft materials. International Journal of Mechanical Sciences, 258: 108566-1–108566-9, 2023.

[41]  Xiaoliang Zhang^#, Yifan Yang^#, Fan Xu^*. A combined finite-discrete element model for elasto-capillary phenomena. International Journal of Mechanical Sciences, 251: 108305-1–108305-9, 2023.

[42]  Yifan Yang, Maoyuan Li, Fan Xu*. A solid-shell model of hard-magnetic soft materials. International Journal of Mechanical Sciences, 271: 109129-1–109129-14, 2024.

[43]  Yifan Yang, Fan Xu*. Computational morphology and morphogenesis for empowering soft-matter engineering. Nature Computational Science, 4: 388–390, 2024.

论文清单详见🍐🦹🏼‍♀️：http://morphomech.com/publication

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