徐凡(復旦大學教授)

徐凡(復旦大學教授)

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復旦大學教授、博導。主要從事軟物質與柔性結構力學、薄膜力學和智慧型材料力學研究。工作以第一/通訊作者發表於PRL (封面文章), Nature Comput. Sci. (封面文章), Nature Biomed. Eng., JMPS, AFM, IJSS, IJES, CMAME, PRSA (封面文章), Angew. Chem., Science Bulletin, Nano Lett. (封面文章), EML, Sci. China Phys. Mech. Astron.等國內外知名學術期刊,成果被《自然》、《自然∙物理》、《自然∙計算科學》、《自然∙生物醫學工程》和美國物理學會Physics以“研究亮點”、“焦點”等專題評論報導,被央視《新聞聯播》、《焦點訪談》、《朝聞天下》、《解放日報》等權威媒體多次報導。曾獲國家自然科學基金優秀青年基金,入選“2018中國十大新銳科技人物”,科技部“中法傑出青年科研人員交流計畫”,上海市“曙光學者”,上海市青年科技啟明星等。

基本介紹

  • 中文名:徐凡
  • 國籍中國
  • 民族:漢族
  • 畢業院校:武漢大學
  • 學位/學歷:博士
  • 職業:教育科研工作者
  • 專業方向:軟物質與柔性結構力學、薄膜力學、智慧型材料力學
  • 職務:復旦大學力學與工程仿真研究所主任 
  • 學術代表作:PRL, JMPS, Nature Comput. Sci., Nature Biomed. Eng.
  • 主要成就:國家自然科學基金優秀青年基金獲得者、2018中國十大新銳科技人物、上海市“曙光學者”、上海市青年科技啟明星
教育經歷,工作經歷,學術組織任職,獲獎及人才計畫,主持的科研項目,主講課程,學術期刊審稿人,代表性論文,

教育經歷

2005.09-2009.07 武漢大學,工程力學,學士
2009.09-2010.07 法國國立工藝學院(CNAM),項目管理,碩士
2010.09-2011.07 巴黎高科國立高等工程技術學校(Arts et Métiers ParisTech),固體力學,碩士
2011.09-2014.11 法國洛林大學,固體力學,博士

工作經歷

2014.12-2015.11 法國國家科學研究中心(LEM3-UMR CNRS),博士後
2015.12-2018.11 復旦大學,航空航天系,青年研究員,博士生導師
2016.06-2019.07 法國國家科學研究中心(LEM3-UMR CNRS),訪問學者(多次)
2017.07-2017.08 香港城市大學,數學系,Research Fellow
2018.12-至今 復旦大學,航空航天系,教授,博士生導師

學術組織任職

上海市力學學會常務理事
中國力學學會軟物質力學工作組組員
中國力學學會微納米力學工作組組員
中國力學學會青年工作委員會委員
中國振動工程學會理事
《Int. J. Nonlinear Mech.》客座編輯
《J. Micromech. Molecular Phys.》副編輯
《Materials》編委
《力學進展》青年編委
《力學與實踐》青年編委
歐洲力學學會(EUROMECH)會員

獲獎及人才計畫

國家自然科學基金優秀青年基金,2021
上海市“曙光學者”,2021
上海市基礎研究特區計畫,2021
上海市人才發展資金,2020
上海市青年科技啟明星,2019
復旦大學“卓越2025”人才培育計畫“卓學優秀人才”,2019
“中國十大新銳科技人物”,2018
科技部“中法傑出青年科研人員交流計畫”,2018
上海市力學學會優秀青年學者,2018
美國機械工程師協會(ASME)法國分部青年研究員論文獎(ASME Prize, French section),2016
上海市“晨光學者”,2016

主持的科研項目

國家自然科學基金優秀青年基金(12122204),國家自然科學基金面上項目(12372096, 11872150),青年科學基金項目(11602058),科技部“中法傑出青年科研人員交流計畫”項目(2018Sino-France001),上海市“曙光計畫”項目(21SG05),“上海市青年科技啟明星計畫”項目(19QA1400500),上海市人才發展資金資助計畫,上海市“晨光計畫”項目(16CG01),上海市教委科研創新計畫(非共識項目),機械結構強度與振動國家重點實驗室開放課題項目(SV2018-KF-17),上海市基礎研究特區計畫項目(21TQ010),復旦大學“卓越2025”人才培育計畫“卓學優秀人才”項目,集成攻關大平台“旦芯人才計畫”項目,復旦大學原創科研個性化項目,復旦大學引進人才科研啟動項目

主講課程

研究生課程:結構強度與穩定性(54學時),材料非線性力學行為(54學時),柔性結構與軟材料力學(54學時)
本科生課程:固體力學基礎(54學時),板殼理論(36學時),結構力學(36學時)

學術期刊審稿人

Nature Mater., Nature Comput. Sci., Nature Commun., Science Adv., J. Mech. Phys. Solids, Int. J. Solids Struct., Proc. Roy. Soc. A – Math. Phys., SIAM J. Appl. Math., Int. J. Eng. Sci., Comput. Method Appl. Mech. Eng., Int. J. Numer. Meth. Eng., Int. J. Mech. Sci., Int. J. Nonlinear Mech., J. Appl. Mech.–T. ASME, J. Appl. Phys., Mech. Mater., ACS Appl. Mater. Interfaces, Adv. Mater. Interfaces, Comput. Struct., Finite Elem. Anal. Des., Eur. J. Mech. A Solids, Int. J. Appl. Mech., Thin Wall. Struct., J. Eng. Math., Acta Mech., Int. J. Mech. Mater. Des., Science China Phys. Mech. Astron., Acta Mech. Sin., Acta Mech. Solida Sin., Chinese J. Aeronaut., Sci. Rep., J. Intel. Mater. Syst. Struct., Macromolecules, Langmuir, Eur. Phys. J. Plus, Philos. Trans. Roy. Soc. A, Arch. Appl. Mech., Soft Matter, Appl. Math. Mech., Extreme Mech. Lett., Appl. Phys. Lett., Adv. Funct. Mater.

代表性論文

[1] 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 Physics 13, 8. (被選為編輯推薦,被美國物理學會Physics Magazine以Focus專題評論報導)
· Highlighted by Nature 578, 10 (2020). (被《自然》以研究亮點報導)
· Featured in Physics Buzz, PhysOrg, PhysicsWorld.
[2] 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)
· Highlighted as News & Views (Bio-inspired adaptive grasper by chiral wrinkling) by Nature Computational Science, 2: 624–625 (2022). (被《自然∙計算科學》專題評論報導)
· Selected as Press Release by Nature.
[3] 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. (被美國物理學會Physics Magazine以Synopsis專題評論報導)
  • This work has been highlighted by Nature 614, 10 (2023) (A chilli’s wrinkles and a cherry’s dimples explained). (被《自然》以研究亮點報導)
[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 Physics 14, 534 (2018). (被《自然∙物理》專題評論報導)
[5] 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.
· Highlighted as News & Views (Soft and fibrous multiplexed biosensors) by Nature Biomedical Engineering, 4, 135–136 (2020). (被《自然∙生物醫學工程》專題評論報導)
[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] 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.
[13] 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∙計算科學》以研究亮點報導)
[14] Diandian Gu, Hui-Hui Dai, Fan Xu*. Buckling of an elastic layer based on implicit constitution: Incremental theory and numericalframework. International Journal of Engineering Science, 169:103568-1–103568-17, 2021.
[15] 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.
[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] 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.
[18] 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.
[19] Fan Xu*, Michel Potier-Ferry, Salim Belouettar, Yu Cong. 3D finite element modeling for instabilities in thin films on soft substrates. International Journal of Solids and Structures, 51: 3619–3632, 2014.
[20] 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.
[21] 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(18): 3119–3134, 2014.
[22] 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.
[23] 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.
[24] 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.
[25] 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.
[26] 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.
[27] 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.
[28] Fan Xu*, Shichen Zhao. Thermal wrinkling of liquid crystal polymer shell/core spheres. Extreme Mechanics Letters, 40: 100860-1–100860-11, 2020.
[29] 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.
[30] Fei Liu, Fan Xu*, Chenbo Fu. Orientable wrinkles in stretched orthotropic films. Extreme Mechanics Letters, 33: 100579-1–100579-9, 2019.
[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] Wenzhi Qiu, Yiwei Xu, Fan Xu*,Yongzhong Huo*. Programmable electric-field-induced bending shapes of dielectric liquid crystal elastomer sheets. Extreme Mechanics Letters, 60: 101982-1–101982-9, 2023.
[33] 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.
[34] Fan Xu*, Michel Potier-Ferry, Salim Belouettar, Heng Hu. Multiple bifurcations in wrinkling analysis of thin films on compliant substrates. International Journal of Non-Linear Mechanics, 76: 203–222, 2015.
[35] Ting Wang, Fan Xu*, Yongzhong Huo, Michel Potier-Ferry. Snap-through instabilities of pressurized balloons: Pear-shaped bifurcation and localized bulging. International Journal of Non-Linear Mechanics, 98: 137–144, 2018.
[36] Fan Xu*, Ting Wang, Chenbo Fu, Yu Cong, Yongzhong Huo, Michel Potier-Ferry. Post-buckling evolution of wavy patterns in trapezoidal film/substrate bilayers. International Journal of Non-Linear Mechanics, 96: 46–55, 2017.
[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] 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, 2022, e202203715.
[39] 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)
[40] Lele Li#, Yang Zheng#, Enping Liu, Juanjuan Wang, Xue Han, Shichun Jiang, Fan Xu*, Yanping Cao*, Conghua Lu*. Ultrafast dynamic response of waterproof stretchable strain sensors based on wrinkle-templated microcracking. Journal of Materials Chemistry A, 10: 16297–16308, 2022.
[41] Chenbo Fu#, Yifan Yang#, Ting Wang#, Fan Xu*. A consistent finite-strain plate model for wrinkling of stretched anisotropic hyperelastic films. Thin-Walled Structures, 179: 109643-1–109643-10, 2022.
[42] 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.
[43] 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.
[44] 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.
[45] 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.
[46] Ruiyang Li, Yu Cong*, Fan Xu*. Tunable Tail Swing of Nanomillipedes. Nano Letters, 23: 10879–10883, 2023. (Cover, 封面文章)
[47] 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.
[48] 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.

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