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浙江大学    航空航天学院
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个人简介

贾铮,博士生导师,国家级青年人才,百人计划研究员(长聘),任职浙江大学航空航天学院工程力学系。研究领域为软物质与柔性结构力学。迄今为止在国际SCI期刊上发表论文近40篇,其中作为第一作者或通讯作者在Journal of the Mechanics and Physics of Solids、Nature Communications、Advanced Materials、Advanced Functional Materials、PNAS、Nano Letters、ACS Nano、International Journal of Plasticity等国际刊物上发表论文20余篇,总被引2000余次,H指数18。获2019年Extreme Mechanics Letters青年学者奖等国际奖项。在软物质力学领域,本研究组建立了多种新型水凝胶材料的本构模型并研究了其变形、失稳、断裂等现象(JMPS,2019;JMPS,2020),揭示了新型锂离子电池非晶硅负极中由材料软化导致的独特应力缓解机制(JMPS,2016),构筑了一种新型的具有优异力学性能的离子导电聚合物并开发相应的软离子器件(Adv.Mater.,2021)。在柔性结构力学领域,本研究组提出了基底-塑性薄膜双层复合柔性结构的延展性理论上限(JMPS,2019),设计了非常规的平面内可拉伸柔性结构(Adv.Funct.Mater,2020),并开发了面向新型能源应用的柔性结构(Nat.Commun,2020;Adv.Mater,2020)。 奖励或荣誉 浙江大学青年教师教学竞赛二等奖,2020 浙江大学第二期高层次人才培育支持专项计划,2020 Extreme Mechanics Letters Young Investigator Award,2019 美国马里兰大学优秀博士毕业论文(物理、数学及工程领域每年仅授予一人),2015 工作经历 2017年12月-至今:浙江大学航空航天学院,百人计划研究员 2017年01月-2017年12月:美国约翰霍普金斯大学,博士后 导师:Dr.Vicky Nguyen 2015年02月-2016年12月:美国西北大学,博士后 导师:Dr.Wing Kam Liu 2014年03月-2014年07月:美国哈佛大学,访问学者 导师:Dr.Zhigang Suo 教育背景 2009年08月-2014年12月:美国马里兰大学,博士 导师:Dr.Teng Li 2005年09月-2009年07月:浙江大学,学士 导师:陶伟明教授 招生与招聘 本研究组目前正在招收博士后、博士研究生、硕士研究生和科研助理。欢迎具有力学、机械、材料、土木、物理和生物工程等相关背景的学生加入攻读硕士或博士学位;欢迎具有相关学术背景的博士硕士毕业生加入担任博士后或科研助理,具体信息详见课题组招聘页面。同样欢迎本科生加入研究组参与SRTP科研课题。 课题组成员 课题组完整信息请见这里 科研助理 申子航2019.09- 北京化工大学,高分子科学,硕士 研究方向:软材料设计构筑与力学应用 博士生 布热比·依明2019.09- 新疆大学,机械工程,硕士 研究方向:软材料与柔性结构的力学与构筑 韩子龙(与曲绍兴教授合作指导)2017.09- 研究方向:软材料设计构筑与力学 马捷2018.09- 中国石油大学,工程力学,学士 研究方向:软材料失稳现象与设计构筑 盛志2019.09- 西南交通大学,工程力学,学士 研究方向:软材料本构 蔡毅杰2020.09- 中国矿业大学,工程力学,学士 研究方向:软材料断裂 硕士生 郭佳梅2018.09- 宁波大学,工程力学,学士 研究方向:储能软材料力学 刘涛2019.09- 大连理工大学,工程力学,学士 研究方向:软材料力学与计算 尹顺禹(与李铁风教授合作指导)2019.09- 大连理工大学,工程力学,学士 研究方向:机器学习与软器件设计 邵贤民2020.09- 华中科技大学,工程力学,学士 研究方向:面向深海工程的软材料力学 研究与成果 Highlights Mechanics of Soft Materials and Flexible Structures:JMPS[34],JMPS[24],JMPS[23],JMPS[17] Design of Soft Materials and Flexible Structures:AM[38],AFM[33],AM[32],Nature Communications[31],PNAS[14],Nano Letters[11] 科研 软材料力学:水凝胶材料与结构的变形、破坏与应用;离子导电高分子材料的力学设计;各向异性水凝胶的本构模型;水凝胶中的多物理场耦合(光、化学、力等); 柔性结构力学:可拉伸柔性结构的力学与先进制造;离子器件的设计与应用;面向新型能源应用的柔性结构设计;刚柔异质结构力学与设计 教学与课程 理论力学,浙江大学,2020年秋冬学期 理论力学,浙江大学,2019年秋冬学期 理论力学,浙江大学,2018年秋冬学期 连续介质力学,马里兰大学,2013年秋冬学期 课题组招聘 贾铮课题组诚招博士后及科研助理 一、招聘名额 招聘博士后1-2名,科研助理1名。 二、研究方向 新型功能软材料(水凝胶与导电高分子材料)的合成、制备与表征。 三、职位要求 博士后 1.具有国内外一流大学或学科博士学位,即将获得博士学位或博士毕业3年内; 2.具备高分子、水凝胶材料等相关研究背景。优先考虑在导电高分子材料、纤维素水凝胶等方面具有丰富研究经验或有高水平成果的申请人; 3.具有独立进行科研工作的能力及良好的中英文写作能力,具有较强的沟通能力和团队合作精神; 4.协助指导硕士及博士研究生。 科研助理 1.具有国内外一流大学或学科硕士学位,即将获得硕士学位或硕士毕业2年内。具备高分子和水凝胶材料等相关研究经验; 2.在承担科研任务的同时,协助进行实验室管理与行政工作。 四、薪酬待遇 博士后 1.在站时间2-4年,提供有竞争力的薪资待遇和科研奖励,年薪25-30万,特别优秀者可以提高,科研奖励面议; 2.享受浙江大学博士后福利,可以租住学校提供的博士后公寓; 3.从事博士后研究工作满3年且成果突出者可申报浙江大学高级专业技术职务; 4.鼓励和支持博士后研究人员参加高水平国际学术会议,或赴海外知名实验室进行学术交流与合作研究。 科研助理 1.具体待遇面议,工作期间表现优秀者可申请浙江大学博士生入学资格。 五、应聘方式: 1.请提供详细的个人简历,包括教育经历(本科、硕士、博士等)、主要科研工作内容、发表论文、获奖情况等。博士后申请人请提供2-3篇代表作全文; 2.应聘者请将材料电子版发送到邮箱:邮件主题命名为:“应聘岗位-本人姓名-学校”,请在邮件中注明可到岗时间和联系方式。 本招聘启示有效期至2020年7月30日

研究领域

软物质与柔性结构力学(Mechanics of Soft Materials and Flexible Structures)

近期论文

查看导师新发文章 (温馨提示:请注意重名现象,建议点开原文通过作者单位确认)

*表示共同第一作者,#表示通讯作者 12.B.R.B.Yiming,Y.Han,Z.L.Han,X.N.Zhang,Y.Li,W.Z.Lian,M.Q.Zhang,J.Yin#,T.L.Sun#,Z.L.Wu,T.F.Li,J.Z.Fu,Z.Jia#,S.X.Qu,A Mechanically Robust and Versatile Liquid-Free Ionic Conductive Elastomer,Advanced Materials,202006111(2021)Soft Polymeric Materials 11.J.Cheng,Z.Jia#,T.Li#,A constitutive model of microfiber reinforced anisotropic hydrogels:with applications to wood-based hydrogels,Journal of the Mechanics and Physics of Solids,103893(2020)Soft Polymeric Materials 10.B.R.B.Yiming,L.Wu,M.Q.Zhang,Z.L.Han,P.Zhao,T.F.Li,Z.Jia#,S.X.Qu,Highly Stretchable Bilayer Lattice Structures that Elongate via in-Plane Deformation,Advanced Functional Materials,1909473(2020)Flexible Structures 9.M.W.Peng,D.L.Shi,Y.H.Sun,J.Cheng,B.Zhao,Y.M.Xie,J.C Zhang,W.Guo,Z.Jia#,Z.Q.Liang#,L.Jiang#,3D Printed Mechanically Robust Graphene/CNT Electrodes for Highly Efficient Overall Water Splitting,Advanced Materials,1908201(2020)Flexible Structures 8.Y.H.Liu#,Q.Z.Liu,J.Cheng,M.R.Chen,A.Y.Zhang,Z.Li,T.Li,T.Nilges,K.He#,Z.Jia#,C.W.Zhou#,Red-Phosphorus-Impregnated Carbon Nanofibers for Sodium-Ion Batteries and“Liquefaction”of Red Phosphorus,Nature Communications,11:2520(2020)Soft Energy Materials 7.Z.Jia,T.Li,Bifurcation instability in substrate-supported metal layers under biaxial tensile loading,Journal of the Mechanics and Physics of Solids,126,52–75(2019)Flexible Structures 6.J.Cheng,Z.Jia#,T.Li#,Delayed burst of a gel balloon,Journal of the Mechanics and Physics of Solids,124,143-158(2019)Soft Polymeric Materials 5.Z.Jia,T.Li,Intrinsic stress mitigation via elastic softening during two-step electrochemical lithiation of amorphous silicon,Journal of the Mechanics and Physics of Solids,91,278–290,(2016)Soft Energy Materials 4.H.L.Zhu*,S.Z.Zhu*,Z.Jia*,S.Parvinian,Y.Y.Li,O.Vaaland,L.B.Hu,T.Li,Anomalous scaling law of strength and toughness of cellulose nanopaper,Proceedings of the National Academy of Sciences(PNAS),112,8971-8976,(2015)Soft Polymeric Materials 3.X.G.Han*,Y.Liu*,Z.Jia*,Y.C.Chen,J.Y.Wan,N.Weadock,K.J.Gaskell,T.Li,L.B.Hu,Atomic-Layer-Deposition Oxide Nano-Glue for Sodium Ion Batteries,Nano Letters,14(1),139–147(2013)Soft Energy Materials 2.Z.Jia,T.Li,Necking limit of substrate-supported metal layers under biaxial in-plane loading,International Journal of Plasticity,51,65-79(2013)Flexible Structures 1.H.L.Zhu*,Z.Jia*,Y.C.Chen,J.Y.Wan,N.J.Weadock,Y.Y.Li,O.Vaaland,X.G.Han,T.Li,L.B.Hu,Tin anode for sodium-ion batteries using natural wood fiber as a mechanical buffer and electrolyte reservoir,Nano Letters,13(7),3093-3100(2013)Soft Energy Materials 39.B.R.B.Yiming,Y.Han,Z.L.Han,X.N.Zhang,Y.Li,W.Z.Lian,M.Q.Zhang,J.Yin#,T.L.Sun#,Z.L.Wu,T.F.Li,J.Z.Fu,Z.Jia#,S.X.Qu,A Mechanically Robust and Versatile Liquid-Free Ionic Conductive Elastomer,Advanced Materials,2006111(2021)Soft Polymeric Materials 38.G.R.Li,X.P.Chen,F.H.Zhou,Y.M.Liang,Y.H.Xiao,X.N.Cao,Z.Zhang,M.Q.Zhang,B.S.Wu,S.Y.Yin,Y.Xu,H.B.Fan,Z.Chen,W.Song,W.J.Yang,B.B.Pan,J.Y.Hou,W.F.Zou,S.P.He,X.X.Yang,G.Y.Mao,Z.Jia,H.F.Zhou,T.F.Li,S.X.Qu,Z.B.Xu,Z.L.Huang,Y.W.Luo,T.Xie,J.Gu,S.Q.Zhu,W.Yang,Self-powered soft robot in the Mariana Trench,Nature,591,66–71(2021)Soft Polymeric Materials 37.J.M.Guo,Z.Jia#,Stress evolution during the two-step charging of high-capacity electrode materials,Journal of Power Sources,486,229371(2021)Soft Energy Materials 36.J.Ma,Z.Jia#,S.X.Qu,A constitutive model for binary-solvent gels,Journal of Applied Mechanics,87(8),081010(2020)Soft Polymeric Materials 35.X.G.Liu,J.M.Guo,T.Liu,J.H.Zhang,Z.Jia#,C.H.Zhang#,Mechanical Simulation Informed Rational Design of a Soft-and-Hard Double-Jacketed SnO2 Flexible Electrode for High Performance Lithium-Ion Battery,Energy Storage Materials,35,520-529(2020)Soft Energy Materials 34.J.Cheng,Z.Jia#,T.Li#,A constitutive model of microfiber reinforced anisotropic hydrogels:with applications to wood-based hydrogels,Journal of the Mechanics and Physics of Solids,138,103893(2020)Soft Polymeric Materials 33.B.R.B.Yiming,L.Wu,M.Q.Zhang,Z.L.Han,P.Zhao,T.F.Li,Z.Jia#,S.X.Qu,Highly Stretchable Bilayer Lattice Structures that Elongate via in-Plane Deformation,Advanced Functional Materials,30,1909473(2020)Flexible Structures 32.M.W.Peng,D.L.Shi,Y.H.Sun,J.Cheng,B.Zhao,Y.M.Xie,J.C Zhang,W.Guo,Z.Jia#,Z.Q.Liang#,L.Jiang#,3D Printed Mechanically Robust Graphene/CNT Electrodes for Highly Efficient Overall Water Splitting,Advanced Materials,1908201(2020)Flexible Structures 31.Y.H.Liu#,Q.Z.Liu,J.Cheng,M.R.Chen,A.Y.Zhang,Z.Li,T.Li,T.Nilges,K.He#,Z.Jia#,C.W.Zhou#,Red-Phosphorus-Impregnated Carbon Nanofibers for Sodium-Ion Batteries and“Liquefaction”of Red Phosphorus,Nature Communications,11:2520(2020)Soft Energy Materials 30.Z.L.Han,P.Wang,G.Y.Mao,T.H.Yin,D.M.Zhong,B.R.B.Yiming,X.C.Hu,Z.Jia,G.D.Nian,S.X.Qu,W.Yang,A Dual pH-Responsive Hydrogel Actuator for Lipophilic Drug Delivery,ACS Applied Materials&Interfaces,12,10,12010-12017(2020)Soft Polymeric Materials 29.Y.M.Burebi,T.Liu,G.D.Nian,Z.L.Han,Z.Jia#,S.X.Qu,Mechanics-guided design of shape-morphing composite sheets with hard and soft materials,Extreme Mechanics Letters,35,100643(2020)Soft Polymeric Materials 28.J.M.Guo,Z.Jia#,Nanoscale silicon-based actuators with extremely large actuation strain and extremely low driving voltage,Extreme Mechanics Letters,31,100534(2019)Soft Energy Materials Honored as the best paper by the 2019 Extreme Mechanics Letters(EML)Young Investigator Award. 27.M.W.Peng,Z.Wen,L.J.Xie,J.Cheng,Z.Jia,D.L.Shi,H.J.Zeng,B.Zhao,Z.Q.Liang,T.Li,L.Jiang,3D Printing of Ultralight Biomimetic Hierarchical Graphene Materials with Exceptional Stiffness and Resilience,Advanced Materials,1902930(2019)Flexible Structures 26.Z.Jia,T.D.Nguyen,A Micromechanical Model for the Growth of Collagenous Tissues under Mechanics-Mediated Collagen Deposition and Degradation,Journal of the Mechanical Behavior of Biomedical Materials,98,96-107(2019)Soft Polymeric Materials 25.B.Yiming,Z.Jia#,S.X.Qu,A chemo-mechanical model for fully-coupled lithiation reaction and stress generation in viscoplastic lithiated silicon,Science China Technological Sciences,62,1365–1374(2019)Soft Energy Materials 24.Z.Jia,T.Li,Bifurcation instability in substrate-supported metal layers under biaxial tensile loading,Journal of the Mechanics and Physics of Solids,126,52–75(2019)Flexible Structures 23.J.Cheng,Z.Jia#,T.Li#,Delayed burst of a gel balloon,Journal of the Mechanics and Physics of Solids,124,143-158(2019)Soft Polymeric Materials 22.J.Cheng,Z.Jia#,T.Li#,Dielectric-elastomer-based capacitive force sensing with tunable and enhanced sensitivity,Extreme Mechanics Letters,21,49–56(2018)Soft Polymeric Materials Before Joining Zhejiang University 21.J.W.Song,C.J.Chen,S.Z.Zhu,M.W.Zhu,J.Q.Dai,U.Ray,Y.J.Li,Y.D.Kuang,Y.F.Li,N.Quispe,Y.G.Yao,A.Gong,U.H.Leiste,H.A.Bruck,J.Y.Zhu,A.Vellore,H.Li,M.L.Minus,Z.Jia,A.Martini,T.Li,L.B.Hu,Processing bulk natural wood into a high-performance structural material,Nature,554(7691),224(2018)Soft Polymeric Materials 20.Z.Jia,W.K.Liu,Rate-dependent stress evolution in nanostructured Si anodes upon lithiation,Applied Physics Letters,109,163903(2016)Soft Energy Materials 19.H.Y.Guo,J.Cheng,J.Y.Wang,L.Wang,P.Huang,Z.Jia,X.Y.Chen,K.Y.Sui,T.Li,Z.H.Nie,Reprogrammable ultra-fast shape-transformation of macroporous composited hydrogel sheets,Journal of Materials Chemistry B,5,2883(2017)Soft Polymeric Materials 18.Y.Li,Z.L.Liu,Z.Jia,W.K.Liu,Modular-based multiscale modeling on viscoelasticity of polymer nanocomposite,Computational Mechanics,59:187,(2017)Soft Polymeric Materials 17.Z.Jia,T.Li,Intrinsic stress mitigation via elastic softening during two-step electrochemical lithiation of amorphous silicon,Journal of the Mechanics and Physics of Solids,91,278–290,(2016)Soft Energy Materials 16.Z.Jia,W.K.Liu,Analytical model on stress-regulated lithiation kinetics and fracture of Si-C yolk-shell anodes for lithium-ion batteries,Journal of the Electrochemical Society,163(6),A940-A946,(2016)Soft Energy Materials 15.Z.Jia,T.Li,Failure mechanics of a wrinkling thin film anode on a substrate under cyclic charging and discharging,Extreme Mechanics Letters,8,273-282(2016)Soft Energy Materials 14.H.L.Zhu*,S.Z.Zhu*,Z.Jia*,S.Parvinian,Y.Y.Li,O.Vaaland,L.B.Hu,T.Li,Anomalous scaling law of strength and toughness of cellulose nanopaper,Proceedings of the National Academy of Sciences(PNAS),112,8971-8976,(2015)Soft Polymeric Materials 13.Z.Jia,T.Li,Stress-modulated driving force for lithiation reaction in hollow nano-anodes,Journal of Power Sources,275,866–876,(2015)Soft Energy Materials 12.Z.J.Wei,Z.Jia,J.C.Athas,C.Y.Wang,S.R.Raghavan,T.Li and Z.H.Nie,Hybrid hydrogel sheets that undergo pre-programmed shape transformations,Soft Matters,10,8157-8162,(2014)Soft Polymeric Materials 11.X.G.Han*,Y.Liu*,Z.Jia*,Y.C.Chen,J.Y.Wan,N.Weadock,K.J.Gaskell,T.Li,L.B.Hu,Atomic-Layer-Deposition Oxide Nano-Glue for Sodium IonBatteries,Nano Letters,14(1),139–147(2013)Soft Energy Materials 10.Z.Jia,T.Li,Necking limit of substrate-supported metal layers under biaxial in-plane loading,International Journal of Plasticity,51,65-79(2013)Flexible Structures 9.J.Y.Wan*,A.F.Kaplan*,Z.Jia*,X.G.Han,Y.C.Chen,N.Faenza,N.J.Weadock,T.Li,J.Guo,L.B.Hu,Two dimensional silicon nanowalls for lithium ionbatteries,Journal of Materials Chemistry A,2,6051-6057(2013)Soft Energy Materials 8.H.L.Zhu*,Z.Jia*,Y.C.Chen,J.Y.Wan,N.J.Weadock,Y.Y.Li,O.Vaaland,X.G.Han,T.Li,L.B.Hu,Tin anode for sodium-ion batteries using natural wood fiber as a mechanical buffer and electrolyte reservoir,Nano Letters,13(7),3093-3100(2013)Soft Energy Materials 7.C.F.Sun*,K.Karki*,Z.Jia*,H.W.Liao,Y.Zhang,J.Cummings,T.Li,Y.Qi,Y.H.Wang,A beaded-string silicon anodes,ACS Nano,7(3),2717-2724(2013)Soft Energy Materials 6.K.Karki,E.Epstein,J.Cho,Z.Jia,T.Li,S.T.Picraux,C.Wang,J.Cumings,Lithium-assisted electrochemical welding in silicon nanowire battery electrodes,Nano Letters,12,1392-1397(2012)Soft Energy Materials 5.C.Peng,Z.Jia,D.Bianculli,T.Li,J.Lou,In situ electro-mechanical experiments and mechanics modeling of fracture in indium tin oxide-based multilayer electrodes,Advanced Engineering Materials,15:250-256(2012)Flexible Structures 4.Z.Jia,C.Peng,J.Lou,T.Li,A map of competing buckling-driven failure modes of substrate-supported thin brittle films,Thin Solid Films,520,6576-6580(2012)Flexible Structures 3.O.Graudejus,Z.Jia,T.Li,S.Wagner,Size-dependent rupture strain of elastically stretchable metal conductors,Scripta Materilia,66,919-922(2012)Flexible Structures 2.C.Peng,Z.Jia,D.Bianculli,T.Li,J.Lou,In situ electro-mechanical experiments and mechanics modeling of tensile cracking in indium tin oxide thin films on polyimide substrates,Journal Applied Physics,109,103530(2011)Flexible Structures 1.Z.Jia,M.B.Tucker,T.Li,Failure mechanics of organic-inorganic multilayer permeation barriers in flexible electronics,Composites Science and Technology,71,365-372,(2011)Flexible Structures

学术兼职

担任力学国际网络论坛iMechanica的旗舰栏目Journal Club的主编(2020-2021)、浙江省力学学会固体力学专委会秘书长等职务,并为ACS Nano、ACS Applied Materials & Interfaces、Nature Scientific Reports、International Journal of Solids and Structures、Extreme Mechanics Letters等十余个SCI学术期刊担任审稿人。

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