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钟淦基

钟淦基,教授,博士生导师。2011年6月毕业于四川大学高分子科学与工程学院材料加工工程专业,获工学博士学位,并以四川大学优秀青年人才留校工作任讲师,2013年7月通过绿色通道晋升副教授,2017年9月破格晋升教授。一直在高分子材料加工理论与技术方向开展研究,以第一或通讯作者在Macromolecules, Biomacromolecules, Polymer等发表SCI论文69篇,SCI他引2000余次。授权发明专利5项。主持了4项国家自然科学基金(包括优秀青年基金,面上项目2项和青年基金1项),四川省杰出青年基金等基础研究项目,与埃克森美孚(ExxonMobil)、柯碧恩-普拉克(Corbion-Purac)等企业开展技术合作。获四川省杰青,四川省“天府万人计划”青年拔尖人才,四川省学术与技术带头人后备人选,四川省科技进步二等奖等学术荣誉。


教育经历:
2000/09 - 2004/06,四川大学,高分子科学与工程学院,大学本科
2004/09 - 2007/06,四川大学,高分子科学与工程学院,硕士研究生
2008/11 - 2010/11,美国凯斯西储大学(Case Western Reserve University),高分子科学与工程系,联合培养博士研究生
2007/09 - 2011/06,四川大学,高分子科学与工程学院,博士研究生


工作经历:
2017/09 – 至今 四川大学,高分子科学与工程学院,教授
2014/10 – 至今 高分子材料工程国家重点实验室(四川大学),固定人员
2013/07 – 2017/08 四川大学,高分子科学与工程学院,副教授
2011/07 - 2013/6 四川大学,高分子科学与工程学院,讲师


研究领域:
   在高分子材料加工方向开展应用基础研究和技术开发,利用可控加工外场制备了大量取向晶体、特殊晶型、原位纳米纤维、以及取向多孔复合特定结构等,并用于聚烯烃、氟塑料、生物可降解聚酯及纤维素材料,实现高分子产品的高性能化与功能化,包括气体阻隔薄膜、电磁屏蔽薄膜及泡沫、高耐热生物可降解聚乳酸注塑制品及薄膜、导电薄膜、增强增韧注塑制品及薄膜等。


联系方式:
地址:四川大学望江校区西区4教208
电话:028-8540-0211
Email:ganji.zhong@scu.edu.cn
个人网页:http://www.ppescu.com/show-25-151-1.htmlhttp://cpse.scu.edu.cn/info/1064/2113.htm


报考信息:


代表性论文:
    [1]Sheng Yang, Qiu-Yang Wei, Xin-Rui Gao, Li Zhou, Ling Xu, Jian-Hua Tang, Gan-Ji Zhong, Xu Ji, Zhong-Ming Li, Robust, transparent films of propylene ethylene copolymer through isotropic-orientation transition at low temperature accelerated by adjustment of ethylene contents. Polymer 2020, 187, 122099. (SCI影响因子3.771)
    [2]Zhao-Bo Sun, Qiu-Yang Wei, Xu-Long Xie, Ling Xu, Xu Ji, Li Zhou,Gan-Ji Zhong, Zhong-Ming Li, Spatial dependence of ordering process in bulk materials of polylactide and its multiple system during hygrothermal aging. Polymer Degradation and Stability 2020, 174, 109107. (SCI影响因子3.780)
    [3]Lei Li, Zi-Han Zhou, Biao Yang, Xu Ji, Hua-Dong Huang, Gan-Ji Zhong, Ling Xu, Zhong-Ming Li, Robust cellulose nanocomposite films based on covalently cross-linked network with effective resistance to water permeability. Carbohydrate Polymers 2019, 211, 237-248. (SCI影响因子6.044)
    [4]Lei Li, Run-Hua Liu, Biao Yang, Zi-Han Zhou, Ling Xu, Hua-Dong Huang, Gan-Ji Zhong, Zhong-Ming Li, Interconnected microdomain structure of crosslinked cellulose nanocomposite revealed by micro-Raman imaging and its influence on water permeability of film. Biomacromolecules 2019, 20 (7), 2754-2762. (SCI影响因子 5.667)
    [5]Xin-Rui Gao, Yue Li, Hua-Dong Huang, Jia-Zhuang Xu, Ling Xu, Xu Ji, Gan-Ji Zhong, Zhong-Ming Li, Extensional Stress-Induced Orientation and Crystallization can Regulate the Balance of Toughness and Stiffness of Polylactide Films: Interplay of Oriented Amorphous Chains and Crystallites. Macromolecules 2019, 52 (14), 5278-5288. (SCI影响因子5.997)
    [6]Yuan Chen, Wen-Qiang Hua, Zheng-Chi Zhang, Jia-Zhuang Xu, Feng-Gang Bian, Gan-Ji Zhong, Ling Xu, Zhong-Ming Li, An efficient, food contact accelerator for stereocomplexation of high-molecular-weight poly( -lactide)/ poly( -lactide) blend under nonisothermal crystallization. Polymer 2019, 170, 54-64. (SCI影响因子3.771)
    [7]Liang-Qing Zhang, Shu-Gui Yang, Lei Li, Biao Yang, Hua-Dong Huang, Ding-Xiang Yan, Gan-Ji Zhong, Ling Xu, and Zhong-Ming Li. Ultralight Cellulose Porous Composites with Manipulated Porous Structure and Carbon Nanotube Distribution for Promising Electromagnetic Interference Shielding. ACS Appl. Mater. Interfaces 2018, 10 (46), 40156–40167. (SCI影响因子8.456)
    [8]Xu-Long Xie, Yue Li, Jia-Zhuang Xu, Zheng Yan, Gan-Ji Zhong, Zhong-Ming Li. Largely enhanced mechanical performance of poly(butylene succinate) multiple system via shear stress-induced orientation of the hierarchical structure. Journal of Materials Chemistry A 2018, 6 (27), 13373-13385. (SCI影响因子10.733)
    [9]Sheng-Yang Zhou, Ben Niu, Xu-Long Xie, Xu Ji, Gan-Ji Zhong, Benjamin S. Hsiao, and Zhong-Ming Li. Interfacial Shish-Kebabs Lengthened by Coupling Effect of In Situ Flexible Nanofibrils and Intense Shear Flow: Achieving Hierarchy To Conquer the Conflicts between Strength and Toughness of Polylactide. ACS Applied Materials & Interfaces 2017, 9 (11), 10148-10159. (SCI影响因子8.456)
    [10]Liang-Qing Zhang, Biao Yang, Jian Teng, Jun Lei, Ding-Xiang Yan, Gan-Ji Zhong, Zhong-Ming Li. Tunable electromagnetic interference shielding effectiveness via multilayer assembly of regenerated cellulose as a supporting substrate and carbon nanotubes/polymer as a functional layer. Journal of Materials Chemistry C 2017, 5 (12), 3130-3138. (SCI影响因子 6.641)
    [11]Xu-Long Xie, Qiang-Sheng Sun, Jun Lei, Feng Tian, Ling Xu, Zheng Yan, Gan-Ji Zhong, Zhong-Ming Li. A nacre-mimetic superstructure of poly(butylene succinate) structured by using an intense shear flow and ramie fiber as a promising strategy for simultaneous reinforcement and toughening. Journal of Materials Chemistry A 2017, 5 (43), 22697-22707. (SCI影响因子 10.733)
    [12]Sheng-Yang Zhou, Hua-Dong Huang, Xu Ji, Ding-Xiang Yan, Gan-Ji Zhong, Benjamin S. Hsiao, Zhong-Ming Li. Super-Robust Polylactide Barrier Films by Building Densely Oriented Lamellae Incorporated with Ductile in Situ Nanofibrils of Poly(butylene adipate-co-terephthalate). ACS Applied Materials & Interfaces 2016, 8 (12), 8096-8109. (SCI影响因子 8.456)
    [13]Hua-Dong Huang, Chun-Yan Liu, Dong Zhou, Xin Jiang, Gan-Ji Zhong, Ding-Xiang Yan, Zhong-Ming Li. Cellulose composite aerogel for highly efficient electromagnetic interference shielding. Journal of Materials Chemistry A 2015, 3 (9), 4983-4991. (SCI影响因子 10.733)
    [14]Hua-Dong Huang, Chun-Yan Liu, Dan Li, Yan-Hui Chen, Gan-Ji Zhong, Zhong-Ming Li. Ultra-low gas permeability and efficient reinforcement of cellulose nanocomposite films by well-aligned graphene oxide nanosheets. Journal of Materials Chemistry A 2014, 2 (38), 15853-15863. (SCI影响因子10.733)
    [15]Huan Xu, Lan Xie, Jing-Bin Chen, Xin Jiang; Benjamin Hsiao, Gan-Ji Zhong, Qiang Fu, Zhong-Ming Li. Strong and tough micro/nanostructured poly(lactic acid) by mimicking the multifunctional hierarchy of shell. Mater Horizons 2014, 1 (5), 546-552. (SCI影响因子14.356)
    [16]Huan Xu, Gan-Ji Zhong, Qiang Fu, Jun Lei, Wei Jang, Benjamin S. Hsiao, Zhong-Ming Li. Formation of shish-kebabs in injection-molded poly(L-lactic acid) by application of an intense flow field. ACS Appl Mater Interfaces 2012, 4 (12), 6773-6783. (SCI影响因子 8.456)


 

 

 

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