朱书泽 - 浙江大学 - 航空航天学院

个人简介

朱书泽博士，浙江大学“百人计划”特聘研究员，博士生导师，研究成果在《科学》、《自然》、Nature Reviews Materials、PNAS、Physical Review Letters(封面论文)等国际知名期刊上发表（详见“研究与成果”）。课题组使用材料合成与表征、力学理论建模与实验、多尺度力学计算（有限元，QM，MD，MC)、机器学习、计算材料学等方法，研究先进材料与结构力学，包括软物质聚合物材料（纤维素、热塑性聚氨酯、水凝胶）、低维材料（例如二维材料、石墨烯等）、高分子复合材料、微纳米结构等。谷歌学术总引用数~2500次（截止2021年1月），H指数24。课题组诚招博士后、科研助理(高分子材料化学实验背景)。教育背景和工作经历 2017年08月-2019年06月：美国伊利诺伊大学，博士后 2016年01月-2017年08月：美国麻省理工学院，博士后 2010年08月-2015年12月：美国马里兰大学，博士研究生 2006年09月-2010年07月：天津大学，本科生

研究领域

微纳米材料与结构力学、软物质力学与材料合成、多尺度计算与机器学习、计算材料学

近期论文

查看导师最新文章（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）

U.Ray,S.Zhu*(corresponding),Z.Pang,T.Li,Mechanics design in cellulose-enabled high performance functional materials,Advanced Materials,2002504(2020). C.Chen,Y.Kuang,S.Zhu,I.Burgert,T.Keplinger,A.Gong,T.Li,L Berglund,S.J.Eichhorn,L.Hu,Structure–property–function relationships of natural and engineered wood,Nature Reviews Materials,1-25(2020). S.Zhu,Book Chapter:Strain engineering:electromechanical properties of graphene,Handbook on the Graphene:Physics,Chemistry,and biology,volume 2,Wiley,USA,(2019). Y.Zhou,C.Chen,S.Zhu#(co-first),C.Sui,C.Wang,Y.Kuang,U.Ray,D.Liu,A.Brozena,U.Leiste,N.Quispe,H.Guo,A.Vellore,H.Bruck,A.Martini,B.Foster,J.Lou,T.Li,L.Hu,Ultra-Strong and Ultra-Tough graphite structural material,Materials Today,30,17-25,(2019). S.Zhu*(corresponding),P.Pochet,H.T.Johnson,Controlling Rotation of 2D Material Flakes,ACS Nano,13(6),6925(2019). Y.Chen,S.Xu,S.Zhu#(co-first),R.Jacob,Y.Wang,J.Dai,F.Chen,B.Liu,L.Salamanca-Riba,T.Li,M.Zachariah,L.Hu,Ultrafast synthesis of compound electrocatalysts for highly efficient overall water splitting,Nano Research,1(2019). Y.Chen,Y.Wang,S.Zhu,C.Chen,V.Danner,Y.Li,J.Dai,H.Li,K.Fu,T.Li,Y.Liu,L.Hu,One-Step,Catalyst-Free,Scalable in situ Synthesis of Single-Crystal Aluminum Nanowires in Confined Graphene Space,ACS Applied Materials&Interfaces,11(6),6009(2019). Y.Chen,Y.Wang,S.Zhu,K.Fu,X.Han,Y.Wang,B.Zhao,T.Li,B.Liu,J.Dai,T.Li,J.Connell,Y.Lin,L.Hu,Nanomanufacutring of Graphene Nanosheets through Nano-Hole Opening and Closing,Materials Today,24,26(2019). S.Zhu,N.Lempesis,P.J.In't Veld,G.C.Rutledge,Molecular simulation of thermoplastic polyurethanes under large compressive deformation,Macromolecules,51(22),9306(2018). S.Zhu*(corresponding),H.T.Johnson,Moiré-templated strain patterning in transition-metal dichalcogenides and application in twisted bilayer MoS2,Nanoscale,10,20689(2018). C.Chen,Y.Chen,S.Zhu#(co-first),J.Dai,Y.Yao,Y.Wang,J.Wan,T.Li,W.Luo,L.Hu,Catalyst-Free in situ Carbon Nanotube Growth in Confined Space via High Temperature Gradient,Research,1793784(2018). S.Zhu,N.Lempesis,P.J.In't Veld,G.C.Rutledge,Molecular simulation of thermoplastic polyurethanes under large tensile deformation,Macromolecules,51(5),1850(2018). 11.J.Song,C.Chen,S.Zhu#(co-first),M.Zhu,J.Dai,U.Ray,Y.Li,Y.Kuang,Y.Li,N.Quispe,Y.Yao,A.Gong,U.Leiste,H.Bruck,J.Zhu,A.Vellore,H.Li,M.Minus,Z.Jia,A.Martini,T.Li,L.Hu,Processing bulk natural wood into a high-performance structural material,Nature,554,224(2018).Hightlighted by MSN,Yahoo,CBS,Science Daily,Scientific American,Nanowerk,etc. C.Chen,J.Song,S.Zhu#(co-first),Y.Li,Y.Kuang,J.Wan,D.Kirsch,L.Xu,Y.Wang,T.Gao,Y.Wang,A.Gong,T.Li,J.Xie,L.Hu,Highly compressible,anisotropic,lamellar carbon sponge,Chem,4,544,(2018). S.Wang,T.Li,S.Zhu,J.Dai,A.Diaz,E.Hitz,S.Solares,T.Li,L.Hu,Super-aligned,ultra-strong,ultra-tough,highly transparent bacterial cellulose nanofibril films,Advanced Functional Materials,1707491(2018). S.Zhu,X.Geng,Y.Han,M.Benamara,L.Chen,J.Li,I.Bilgin,H.Zhu,Metallic and highly conducting two-dimensional atomic arrays of sulphur enabled by molybdenum disulfide nanotemplate,npj Computational Materials,41(2017). M.Zhu,Y.Wang,S.Zhu,L.Xu,C.Jia,J.Song,Y.Yao,Y.Wang,Y.Li,D.Henderson,W.Luo,M.Minus,T.Li,L.Hu,Anisotropic,transparent films with aligned cellulose nanofibers,Advanced Materials,1606284(2017). H.Zhu,F.Shen,W.Luo,S.Zhu,B.Natarajan,J.Dai,M.Zhao,L.Zhou,X.Ji,T.Li,L.Hu,Mesoporous carbon derived from abundant cellulose nanocrystals toward high-performance sodium ion batteries,Nano Energy,33,37(2017). Y.Li,H.Zhu,Y.Wang,U.Ray,S.Zhu,J.Dai,C.Chen,K.Fu,S.Jang,D.Henderson,T.Li,L.Hu,Cellulose nanofiber-enabled 3D printing of carbon nanotube microfiber network,Small Methods,17700222(2017). X.Han,Z.Yang,B.Zhao,S.Zhu,L.Zhou,J.Dai,J.Kim,B.Liu,J.Connel,T.Li,B.Yang,Y.Lin,L.Hu,Compressible,dense,three-dimensional holey graphene monolithic architecture,ACS Nano,11(3),3189(2017). S.Zhu*(corresponding),T.Li,Strain-induced programmable half-metal and spin-gapless semiconductor in an edge-doped boron nitride nanoribbon,Physical Review B,93,115401(2016). Y.Yao,K.Fu,S.Zhu,J.Dai,Y.Wang,G.Pastel,Y.Chen,T.Li,C.Wang,T.Li,L.Hu,Carbon welding by ultrafast Joule heating,Nano Letters,16,7282(2016). Y.Chen,K.Fu,S.Zhu,W.Luo,Y.Wang,Y.Li,E.Hitz,Y.Yao,J.Dai,J.Wan,V.A.Danner,T.Li,L.Hu,Reduced graphene oxide films with ultra-high conductivity as Li-ion battery current collectors,Nano Letters,16,3616(2016). Y.Chen,G.C.Egan,J.Wan,S.Zhu,R.J.Jacob,W.Zhou,J.Dai,Y.Wang,V.A Danner,Y.Yao,K.Fu,Y.Wang,W.Bao,T.Li,M.R.Zachariah,L.Hu,Ultra-fast self-assembly and stabilization of reactive nanoparticles in reduced graphene oxide films,Nature Communications,7,12332(2016). S.Zhu,J.Stroscio,T.Li,Programmable extreme pseudomagnetic fields in graphene by a uniaxial stretch,Physical Review Letters,115,245501(2015).Cover Feature,Editors’suggestion,highlighted by Nature,Science,APS Physics,R&D Magazine,Phys.org,Nanowerk,etc. Y.Li,H.Zhu,S.Zhu#(co-first),J.Wan,Z.Liu,O.Vaaland,S.Lacey,Z.Fang,T.Li,H.Dai,L.Hu,Hybridizing wood cellulose and graphene oxide toward high-performance fibers,NPG Asia Materials,7(1),e150(2015). S.Gill,J.Hinnefeld,S.Zhu,W.Swanson,T.Li,N.Mason,Mechanical control of graphene on engineered pyramidal strain arrays,ACS Nano,9(6),5799(2015). H.Zhu,S.Zhu#(co-first),Z.Jia,S.Parvinian,Y.Li,O.Vaaland,L.Hu,T.Li,Anomalous scaling law of strength and toughness of cellulose nanopaper,Proceedings of the National Academy of Sciences,112(29),8917(2015).Highlighted by phys.org,NanoWerk,The Economic Times,etc. J.Hinnefeld,S.Gill,S.Zhu,W.Swanson,T.Li,N.Mason,Reversible electronic and mechanical properties of ripped graphene,Physical Review Applied,3,014010(2015). S.Zhu,Y.Huang,N.Klimov,D.Newell,N.Zhitenev,J.Stroscio,S.Solares,T.Li,Pseudomagnetic fields in a locally strained graphene drumhead,Physical Review B,90(7),075426(2014). S.Zhu,T.Li,Hydrogenation assisted graphene origami and its application in programmable molecular mass uptake,storage,and release,ACS Nano,8(3),2864(2014).Highlighted by Discovery News Channel,phys.org,NanoWerk,IEEE spectrum,etc. S.Zhu,Y.Huang,T.Li,Extremely compliant and highly stretchable patterned graphene,Applied Physics Letters,104(17),173103(2014). S.Zhu,T.Li,Wrinkling instability of graphene on substrate-supported nanoparticles,Journal of Applied Mechanics,81(6),061008(2014). Y.Huang,S.Zhu#(co-first),T.Li,Directional transport of molecular mass by straining,Extreme Mechanics Letters,1,83(2014). Z.Fang,H.Zhu,Y.Yuan,D.Ha,S.Zhu,C.Preston,Q.Chen,Y.Li,X.Han,S.Lee,G.Chen,T.Li,J.Munday,J.Huang,L.Hu,Novel nanostructured paper with ultra-high transparency and ultra-high haze for solar cells,Nano Letters,14,765(2014). Y.Huang,S.Zhu,T.Li,Line defects guided molecular patterning on graphene,Applied Physics Letters,104(9),093102(2014). A.Smolyanitsky,S.Zhu,Z.Deng,T.Li,R.Cannara,Effects of surface compliance and relaxation on the frictional properties of lamellar materials,RSC Advances,4,26721(2014). S.Zhu,T.Li,Hydrogenation enabled scrolling of graphene,Journal of Physics D:Applied Physics,46,075301(2013).Best Student Paper Award（最佳学生论文奖）,ASME Applied Mechanics Division,2012. S.Zhu,J.Galginaitis,T.Li,Critical dispersion distance of silicon nanoparticles intercalated between graphene layers,Journal of Nanomaterials,2012,375289(2012). N.Klimov,S.Jung,S.Zhu,T.Li,C.Wright,S.Solares,D.Newell,N.Zhitenev,J.Stroscio,Electro-mechanical properties of graphene drumheads,Science,336,1557(2012).Highlighted by Virtual J.Nano.Sci.Tech.26,1(2012),phys.org,Science Daily,Physics World,NanoTechWeb,NanoWerk,Next Big Future,etc.