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姓名:周晓东
职称:研究员
职务:化学工程联合国家重点实验室华东理工大学分室固定研究人员
所属单位:华东理工大学
电话:021-64253757
传真:021-64253757
电子邮件:xdzhou@ecust.edu.cn

教育背景:
1990/09-1996/05,南京理工大学,高分子材料专业,博士
1987/09-1990/07,华东工学院(现南京理工大学),高分子化工专业,本科

工作经历:
2001/11-至今,华东理工大学,化工学院,研究员
1998/01-2001/10,华东理工大学,化工学院,副研究员
1996/06-1998/08,华东理工大学,博士后

研究方向:
多相、多组分聚合物材料界面,热塑性复合材料,生物资源聚合物材料高性能化及实用化,基于超分子组装的功能聚合物材料

学术要点:
1. 多相、多组分聚合物材料界面
研究纤维增强聚合物界面粘结的改善与控制;研究界面结构与界面性能及材料宏观性能的关系;研究增强、增韧的界面设计,环境因素(湿热、温度骤变等)对界面的损伤行为及应对措施。
2、热塑性复合材料
聚合物材料的改性:研究聚合物材料的增强、增韧、阻燃、阻隔等多种高性能、功能化、低成本化改性技术。
聚合物基复合材料的制备及成型技术:研究纤维织物、连续纤维及非连续纤维增强聚合物基复合材料的制备与成型工艺;研究热塑性复合材料制备及成型过程的传递行为,纤维损伤、分布及取向的规律;研究热塑性复合材料制备的工业化技术与设备及制品成型工艺和设备。
3、生物资源聚合物材料高性能化及实用化
淀粉、聚乳酸等材料的改性:研究天然纤维、细菌纤维素、木粉等填料对淀粉、聚乳酸生物资源聚合物的力学性能、热性能和降解性能等的影响规律;开发淀粉、聚乳酸等生物资源聚合物材料的高性能化和低成本化技术。
细菌纤维素功能材料:研究细菌纤维的培养方式及后处理对细菌纤维素产率及性能的影响规律;研究细菌纤维素作为界面改性剂对玻璃纤维、天然纤维和木粉增强复合材料的界面改性规律;研究以细菌纤维素作为生物材料在人工血管、人工皮肤及创伤敷料等医学领域的应用;
4、基于超分子组装的功能聚合物材料
近红外截止滤光材料:设计合成不同种类在近红外区域内具有强吸收且与基体相容性好的近红外吸收材料;研究多种吸收材料的配合与协同作用并结合分散组分的表面修饰进行滤光材料的优化设计;研究近红外吸收材料在高粘聚合物熔体中的分散及形态控制规律。
导电、导热聚合物:设计合成纳米金属胶体和纳米复合微球,研究其在电磁屏蔽、抗静电等领域的应用;研究碳纤维、金属纤维、石墨烯等功能性填料的引入对高性能热塑性聚合物导热性能的影响规律。

荣誉和奖励:
2009年获得国家科技进步二等奖1项(排名第四),2010年获得上海市科技进步三等奖1项(排名第一)。
2001年以来作为负责人及主要研究人员承担了国防科工委军工配套计划、国家863计划、国家自然科学基金、上海市科技发展基金、上海市教委青年基金、上海市汽车发展基金及企业委托的科研项目四十余项。2009年以来在国内外发表期刊论文67篇,SCI收录40篇,公开中国发明专利16项,获授权6项,国防专利授权1项。

代表性论文:
[1]Chen, Yuanxi; Zhou, Xiaodong; Yin, Xiaochen; et al.A Novel Route to Modify the Interface of Glass Fiber-Reinforced Epoxy Resin Composite via Bacterial Cellulose. International Journal Of Polymeric Materials And Polymeric Biomaterials.2014,63(4): 221-227
[2]Shuanghui Deng, Xiaodong Zhou*, Mengqin Zhu, Chuanjie Fan, Qunfang Lin. Interfacial toughening and consequent improvement infracture toughness of carbon fiber reinforced epoxy resincomposites: induced by diblock copolymers. Express Polymer Letters ,2013, 7(11): 925-935.
[3]Li Fang, Qunfang Lin, Xiaodong Zhoua*, Ting Zhang, Limin Wang. Flexural creep behavior of continuous fiber reinforced Polyphenylene sulphide laminates. High Performace Polymer, 2013, 25(5) 485–492.
[4]Li Fang, Xuwu Li, Xiaodong Zhou*. The effect of fiber reinforced interleaves on interlaminar shear strength of continuous glass fiber reinforced polypropylene laminates. Journal of Polymer Engineering, 2013, 33(3): 221–227.
[5]Ying Shuni; Zhou Xiaodong. Chemical and thermal resistance of basalt fiber in inclement environments. Journal Of Wuhan University Of Technology-Materials Science Edition,2013,28(3):560-565.
[6]Deng S, Ma W, Zhou X*, Fan C. Maintenance of highly interfacial shear strength by diblock copolymer between carbon fiber and epoxy resin in hostile environment. Composite Interfaces. 2012, 19(8): 499-509.
[7]Shuanghui Deng, Xiaodong Zhou*, Chuanjie Fan, Qunfang Lin, Xinggui Zhou. Release of interfacial thermal stress and accompanying improvement of interfacial adhesion in carbon fiber reinforced epoxy resin composites: induced by diblock copolymers. Composites Part A: applied science and manufacturing. 2012, 43(6): 990-996.
[8]Xie X, Wu YW, Kong YY, Zhang ZX, Zhou XD.Synthesis and characterization of multilayer core-shell structure hollow spheres with low density, favorable magnetic and conductive properties. Colloids And Surfaces A-Physicochemical And Engineering Aspects,2012,408:104-113.
[9]Qunfang Lin, Zhou Xiaodong*, Xuan Xie, Shuni Ying, Synthesis and Characterization of Star Polymer with Comb-like poly (lauryl methacrylate ) Arms by Atom Transfer Radical Polymerization via One-pot ‘Arm-First’ Method, Journal of Macromolecular Science, Part A: Pure and Applied Chemistry, 2012,49(6):502-507.
[10]Li Yin, Lin Qunfang, Chen Ligen, Chen Lingxia, Zhou Xiaodong*. Novel Route to Control Interfacial Properties of Glass Fiber-Reinforced Polystyrene Composites via a Photo-Cross-Linkable Block Copolymer Coupling Agent. Composite Interfaces, 2011, 18(7):551-556.
[11]Shen Tao, Zhou Xiaodong*, Lin Qunfang. Influence of Grafting Density of Diblock Copolymers on Interfacial Assembly Behavior and Interfacial Shear Strength of Glass Fiber/Polystyrene Composites. Composite Interfaces; 2011, 18(8):701-714.
[12]Jian Zhao, Xuan Xie, Xiaodong Zhou*. A Nano-hybrid Silver Colloidal Suspension Preparation, Iranian Polymer Journal , 2011, 20(10): 845-852.
[13]Xuan Xie, Xiaodong Zhou*. Well encapsulated hollow borosilicate glass sphere@polypyrrole composite with low density, designable thickness and conductivity,Colloids and Surfaces A-Physicochemical and Engineering Aspects, 2011, 386(1~3): 158-165.
[14]Shuni Ying, Xiaodong Zhou*. Basalt Fibres/Polystyrene Interfacial Adhesion Through Modification of Basalt Fibres by Block Copolymers, Iranian Polymer Journal, 2011, 20 (7): 571-578.
[15]Yin Li, Qunfang Lin, Xiaodong Zhou*. Thermal Treatment Effect on Transcrystalline Interphase and Interfacial Shear Strengths of Glass Fibre/Polypropylene Composites, Iranian Polymer Journal, 2011, 20 (6): 503-511.
[16]Jingqiang Hou, Xiaodong Zhou*, Xinggui Zhou. Grafting of Poly(n-butylacrylate)-b-poly(2- hydroxyethyl methacrylate) on Carbon Fiber and its Effect on Composite Properties, Polymer-Plastics Technology and Engineering, 2011, 50(3):260-265.
[17]Li, Zhaoqian; Zhou, Xiaodong; Pei, Chonghua.Effect of Sisal Fiber Surface Treatment on Properties of Sisal Fiber Reinforced Polylactide Composite. International Journal Of Polymer Science.2011,803424
[18]Chuanjie Fan, Xiaodong Zhou*. Influence of operating conditions on the surface morphology of microcapsules prepared by in situ polymerization, Colloids and Surfaces A-Physicochemical and Engineering Aspects, 2010, 363(1~3):49-55.
[19]Huan Zai, Xiaodong Zhou*, Li Fang. Study on Mechanical Properties of Powder Impregnated Glass Fiber Reinforced Poly(phenylene sulphide) by Injection Molding at Various Temperatures, Journal of Applied Polymer Science, 2010, 115(4):2019-2027.
[20]Zhaoqian Li, Xiaodong Zhou*, Chonghua Pei. Synthesis of PLA-co-PGMA Copolymer and its Application in the Surface Modification of Bacterial Cellulose, International Journal of Polymeric Materials, 2010, 59(9):725-737.
[21] Zhaoqian Li, Xiaodong Zhou*, Chonghua Pei. Preparation and Characterization of Bacterial Cellulose/Polylactide Nanocomposites, Polymer-Plastics Technology and Engineering, 2010, 49( 2):141-146.
[22] Zhaoqian Li, Xiaodong Zhou*, Chonghua Pei. Synthesis and Characterization of MPS-g-PLA Copolymer and its Application in Surface Modification of Bacterial Cellulose, International Journal of Polymer Analysis and Characterization, 2010, 15(4): 199-209.
[23]Chuanjie Fan, Xiaodong Zhou*. Preparation and barrier properties of the microcapsules added nanoclays in the wall, Polymers for Advanced Technologies, 2009, 20(12):934-939.
[24]Yin Li, Qunfang Lin, Lingxia Chen, Xiaodong Zhou*. Assembly of triblock copolymer brush at glass fiber/polystyrene interface and its effect on interfacial shear strength, Composites Science and Technology, 2009, 69(11~12): 1919-1924..
[25]Lei Qiu, Yufeng Wang, Qunfang Lin, Xiaodong Zhou*. Synthesis of Lauryl methacrylate star-like polymers via ATRP, Asia-Pacific Journal of Chemical Engineering, 2009, 4(5): 678-682.
[26] Jingqiang Hou, Xiaodong Zhou*, Zhijun Sui. Grafting of polystyrene on carbon nanofibers by introducing a methacrylate unit, Polymer International, 2009, 58(5):564-569.
[27] Juan He, Yufeng Wang, Qunfang Lin, Ligen Chen, Xiaodong Zhou*. Synthesis and Characterization of Functional Gradient Copolymers of 2-Hydroxyethyl Methacrylate and tert-Butyl Acrylate by Atom Transfer Radical Polymerization, Journal of Macromolecular Science Part A-Pure and Applied Chemistry, 2009, 46(4):405-411.
[28]Yin Li, Qunfang Lin, Lingxia Chen, Xiaodong Zhou*. Assembly of triblock copolymer brush at glass fiber/polystyrene interface and its effect on interfacial shear strength, Composites Science and Technology , 2009, 69(11~12): 1919-1924.

 



   
     
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