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科研综述根据2020年3月浙江大学官网显示,郑强的主要研究方向为:聚合物流变学、多组分聚合物材料结构与性能、高分子复合材料、功能高分子材料。在多相/多组分复杂高分子填充体系流变学研究方面取得一系列成果,提出被国际上誉为“The Model of Song and Zheng”的流变“两相”模型。科研承担根据2020年3月浙江大学官网显示,郑强先后主持国家重点基础研究发展计划(973计划)课题、国家高技术研究发展计划(863计划)、国家科技支撑计划、国家自然科学基金重点项目等国家级研究项目20余项,经费总额度3000余万元。代表论文根据2020年3月浙江大学官网显示,郑强先后发表SCI收录论文450余篇(其中影响因子大于10的4篇,大于5的33篇,大于3的167篇),SCI他引4600余次。Yihu Song*,Qiang Zheng. Concepts and conflicts in nanoparticles reinforcement to polymers beyond hydrodynamics. Progress in Materials Science 2016,84,1-58Zhijian Wang,Wei Hong,Zi Liang Wu*,Qiang Zheng,Site-Specific Preswelling-Directed Morphing Structures of Patterned Hydrogels,Angew. Chem. Int. Ed.,2017,56,15974-15978Weiyang Lv,Qingqing Mei,Jianliang Xiao,Miao Du*,Qiang Zheng. 3D Multiscale Superhydrophilic Sponges with Delicately Designed Pore Size for Ultrafast Oil/Water Separation,Advanced Functional Materials,2017,41: 1704293(1-9)Fang Li,Miao Du*,Qiang Zheng. Dopamine/silica nanoparticle assembled,microscale porous structure for versatile superamphiphobic coating,ACS Nano,2016,10: 2910–2921Qiang Zheng*,Mao Peng,Yihu Song,Tiejun Zhao,Use of WLF-like Function for Describing the Nonlinear Phase Separation Behavior of Binary Polymer Blends,Macromolecules,2001,34,8483-8489Shunchang Gan,Zi Liang Wu*,Huilong Xu,Yihu Song*,Qiang Zheng,Viscoelastic Behaviors of Carbon Black Gel Extracted from Highly Filled Natural Rubber Compounds: Insights into the Payne Effect,Macromolecules,2016,49,1454-1463.Zhong Zheng,Yihu Song*,Huilong Xu,Qiang Zheng*. Thickening of the immobilized polymer layer using trace amount of amine and its role in promoting gelation of colloidal nanocomposites. Macromolecules2015,48(24): 9015-9023Wenwen Yu,Miao Du*,Dezhi Zhang,Yu Lin,Qiang Zheng. Influence of dangling chains on molecular dynamics of polyurethanes,Macromolecules,2013,46: 7341−7351Yonggang Shangguan*,Mingguo Liu,Lei Jin,Mengjie Wang,Zhengke Wang,Qiang Wu,Qiang Zheng*,Thermo-thickening Behavior and Its Mechanism of Chitosan-graft-polyarylamide Aqueous Solution,Soft Matter,2018,14,6667-6677Lei Jin,Yonggang Shangguan*,Tao Ye,Hu Yang,Quanfu An,Qiang Zheng*,Shear induced self-thickening in chitosan-grafted polyacrylamide aqueous solution,Soft Matter 2013,9,1835-1843Zhong Zheng,Yihu Song*,Xiang Wang,Qiang Zheng. Adjustable rheology of fumed silica dispersion in urethane prepolymers: Composition-dependent sol and gel behaviors and energy-mediated shear responses. Journal of Rheology 2015,59(4): 971-993Yihu Song*,Qiang Zheng. Linear rheology of nanofilled polymers. Journal of Rheology 2015,59(1),155-191Xiang Wang,Heng Su,Weiyang Lv,Miao Du*,Yihu Song,Qiang Zheng. Complex rheological behaviors of Loach(Misgurnus anguillicaudatus) Skin Mucus,Journal of Rheology,2015,59(1): 51–62Weiyang Lv,Qingqing Mei,Huakang Fu,Jianliang Xiao,Miao Du*,Qiang Zheng. A general strategy for the synthesis of layered double hydroxide nanoscrolls on arbitrary substrates: its formation and multifunction,Journal of Materials Chemistry A,2017,5,19079-19090Yonggang Shangguan*,Feng Chen,Jie Yang,Erwen Jia,Qiang Zheng*,A new approach to fabricate polypropylene alloy with excellent low-temperature toughness and balanced toughness-rigidity through unmatched thermal expansion coefficients between components,Polymer,2017,112,318-324Yihu Song*,Qiang Zheng. Size-dependent linear rheology of silica filled poly(2-vinylpyridine). Polymer 2017,30,74-78Yihu Song*,Qiang Zheng. A Guide for Hydrodynamic reinforcement effect in nanoparticle-filled polymers. Critical Reviews in Solid State and Materials Sciences 2016,41(4),318-346Feng Chen,Yonggang Shangguan*,Yishu Jiang,Biwei Qiu,Guohang Luo,Qiang Zheng*,Toughening without strength loss and mechanism for modified polypropylene by polymer particles with core-shell structure,Polymer. 2015,65,81-92Zhong Zheng,Yihu Song*,Ruiquan Yang,Qiang Zheng*. Direct evidence for percolation of immobilized polymer layer around nanoparticles accounting for sol-gel transition in fumed silica dispersions. Langmuir 2015,31(50): 13478-13487Weiyang Lv,Miao Du,* Weijuan Ye,Qiang Zheng. The formation mechanism of layered double hydroxide nanoscrolls by facile trinal-phase hydrothermal treatment and their adsorption properties,Journal of Materials Chemistry A,2015,3: 23395–23402Xiang Wang,Miao Du*,Hongpeng Han,Yihu Song,Qiang Zheng. Boundary lubrication by associative Mucin,Langmuir,2015,31(16): 4733–4740Huakang Fu,Miao Du *,Qiang Zheng. Effect of Iron concentration on the growth of carbon nanotubes on clay surface,ACS Appl. Mater. Interfaces,2012,4,1981-1989Yilan Ye,Yonggang Shangguan*,Yihu Song,Qiang Zheng*,Structural evolution and dehydration dynamics of weakly charged polyelectrolytes during phase transition investigated by rheological and two-dimensional fourier-transform infrared measurements,Polymer 2014,55(10),2445-2454Yu Lin,Yqiang Tan,Biwei Qiu,Jiaqi Cheng,Wanjie Wang,Yonggang Shangguan*,Qiang Zheng*,Casting solvent effects on molecular dynamics of weak dynamic asymmetry polymer blends via broadband dielectric spectroscopy,J. Membrane Sci.,2013,439,20-27Fengbo Zhu,Libo Cheng,Zhijiang Wang,Wei Hong,Ziliang Wu*,Jun Yin*,Jin Qian*,Qiang Zheng,3D Printed Ultratough Hydrogel Structures with Titin-like Domains,ACS Appl. Mater. Interfaces,2017,9,11363-11367Ye Tian,Xiaoshuang Wei,Zhijian Wang,Pengju Pan,Fangyuan Li,Daishun Ling,Ziliang Wu*,Qiang Zheng,A Facile Approach to Prepare Tough and Responsive Ultrathin Physical Hydrogel Films as Atrificial Muscles,ACS Appl. Mater. Interfaces,2017,9,34349-34355Fengbo Zhu,Libo Cheng,Jun Yin*,Zi Liang Wu*,Jin Qian*,Jianzhong Fu,Qiang Zheng,3D Printing of Ultratough Polyion Complex Hydrogels,ACS Appl. Mater. Interfaces,2016,8,31304-31310Si Yu Zheng,Hongyao Ding,Jin Qian,Jun Yin,Zi Liang Wu*,Yihu Song,Qiang Zheng*,Metal-Coordination Complexes Mediated Physical Hydrogels with High Toughness,Stick-Slip Tearing Behavior,and Good Processability,Macromolecules,2016,49,9637-9646Qi Chen,Min Zuo*,Ruiquan Yang,Jifei Zhang,Xiong Lv,Wenjing Zhang,Yihu Song,Qiang Zheng,Evolution of concentration fluctuation during phase separation of polystyrene/poly(vinyl methyl ether) blend in the presence of nanosilica,Journal of Polymer Science Part B: Polymer Physics,2017,55,1337-1349Yunxiang Zhang,Min Zuo*,Ting Liu,Yihu Song*,Qiang Zheng,Segmental dynamics and rheology of miscible poly(vinylidene fluoride)/poly(methyl methacrylate)(70/30 by weight) blend filled with titania or poly(methyl methacrylate)-grafted titania,Composites Science and Technology,2016,123,39-48专利成果根据2020年3月浙江大学官网显示,郑强先后获国家授权专利38项;获得省部级科技成果奖4项;应用研究成果已产生经济效益逾20亿元。科研获奖根据2020年3月浙江大学官网显示,郑强以第1完成人获省级科技一等奖3项、教育部自然科学二等奖1项。培养理念郑强认为大学光有大楼是不行的,必须抓内涵,狠抓教学,首先就是校风、教风、学风、考风建设。他还认为绝对不能让孩子永远穷在山沟里,一定要让孩子走出去。一定要让本科的学生,去中国国外好的大学读书,去清华北大等一 流高校读书,于是他本人着手启动了“博学计划”。同时他还坚持不要盲从、不要模仿、不要跟踪的办学理念。讲座报告根据2020年3月浙江大学官网显示,郑强近十年来,在中国20多个省市自治区的高校、企业、机关、中学进行了200多场的讲演,主要涉及人才、科研、教育等与高校和人才息息相关的话题。央视1套《东方时空》《开讲啦》《青年中国说》等栏目,中国教育电视台《教育人生》栏目,《人民日报》《中国青年报》《环球人物》等媒体均予以专题报道。教授课程根据2020年3月浙江大学官网显示,郑强主要承担高分子物理、绚丽多彩的高分子、材料科学与人类文明、高聚物结构与性能、高分子凝聚态结构与性能、聚合物流变学、高分子近代史、培养成果等课程的讲授。此外还讲授《中国梦,中华复兴之梦》《中国梦—从当今教育与企业文化构建谈起》等课程。培养成果根据2020年3月浙江大学官网显示,郑强培养了近百名硕博士生;先后获得教育部高等学校科学研究优秀成果二等奖1项(2009年,排名第一),浙江省教学成果一等奖1项(2009年,排名第一)。