人物簡介
四川大學教授,男,1969年7月生,工學博士,博士生導師,國務院特殊津貼專家 。
1993年畢業於西北工業大學高分子材料專業,獲學士學位。1996年畢業於四川聯合大學塑膠工程專業,獲碩士學位並留校任教。2003年獲四川大學材料加工工程專業博士學位。1998年任講師,2000年和2003年先後破格晉升副教授、教授,2005年任博士生導師。2008-2009年在美國紐約州立大學Stony Brook分校Benjamin Hsiao教授課題組做訪問學者。2001年和2003年連續兩屆入選四川大學“214重點人才工程計畫”,2004年入選教育部“新世紀優秀人才支持計畫”,2004年入選“四川省傑出青年學科帶頭人培養計畫”、“教育部新世紀優秀人才支持計畫”和“教育部創新團隊發展計畫”,2005年獲霍英東青年教師基金獎勵,2006年獲四川省青年科技獎,2007年起任四川大學985工程I類科技創新平台“高分子與特種功能材料”學術帶頭人,2009年獲國家傑出青年科學基金,2011年入選四川省學術技術帶頭人,2012年入選政府特殊津貼專家,2013年入選四川省青年科技創新團隊(帶頭人)。
主要從事聚合物共混物形態與性能、聚合物複合材料形態與界面及聚合物成型加工新方法研究。參加了國家和省部級及橫向科研項目30餘項。其中,負責國家自然科學基金7項(1項為重點項目)、科技部高技術發展項目(863) 1項、教育部新世紀優秀人才支持計畫1項、霍英東青年教師基金1項、高校博士點專項基金1項、四川省傑出青年基金1項、四川省套用基礎項目1項、廣東省省部產學研項目1項。迄今在國內外核心刊物發表SCI收錄200餘篇,被SCI他引2700餘次。以第一發明人申請國家發明專利26項(授權12項),獲省部級科研獎勵4項。
主要研究方向
(1) 在加工中通過形態、結構控制,達到通用高分子材料高性能化。主要是通過“擠出-熱拉伸-淬冷”技術,使共混物分散相原位形成微米或亞微米纖維,利用纖維的增強作用實現通用高分子材料的高性能化。
(2) 在加工中通過形態、結構控制,達到高分子材料功能化。主要是通過新型加工方法,使功能無機或有機粒子在聚合物多相體系中擇優分布於分散相中,分散相通常呈纖維,並形成三維網路結構。在功能粒子添加量較低時,可獲得良好的功能性,如導電、導磁、阻燃等。
(3) 高分子材料在加工中形態、凝聚態結構形成、發展與演化規律。主要研究在溫度場、應力場作用下,高分子多相體系相形態、結晶形態的形成與演化規律。
(4) 廢棄塑膠清潔、高效回收利用。主要利用原位微纖化共混物概念,製備基於廢棄熱塑性塑膠的原位微纖化共混材料。
(5) 聚氨酯泡沫塑膠製備,以及增強和功能化改性。通過在體系中加入各種增強材料、功能材料從而獲得國家關鍵武器等所需的具有功能性(阻尼、抗靜電)的結構聚氨酯泡沫塑膠。
獲獎情況
◎“長江學者獎勵計畫”特聘教授 (2014)
◎四川省青年科技創新團隊(帶頭人)(2013)
◎政府特殊津貼專家(2012)
◎ 四川省學術技術帶頭人(2011)
◎ 國家傑出青年基金獲得者(2009)
◎ 四川省青年科技獎(2007)
◎ 全國百篇優秀博士學位論文提名獎(2006)
◎ 第十屆霍英東優秀青年教師基金獲得者(2006)
◎ 四川大學2005年度青年骨幹教師 (2005)
◎ 首屆教育部“新世紀優秀人才支持計畫入選者”(2004)
◎ 四川省傑出青年基金獲得者(2004)
◎ 教育部創新團隊發展計畫成員(2004)
◎ 2004年四川大學優秀教學成果一等獎,第三完成人
◎ 2004年四川省優秀教學成果二等獎,第四完成人
◎ 2003年度四川大學本科生優秀畢業論文指導教師二等獎
◎ 2001、2002連續入選四川大學“214重點人才支持計畫”三層次
◎ 2003年度四川省科學技術進步三等獎,第一成果完成人
◎ 四川省學術技術帶頭人後備人才(2003)
著作
(1)《模壓成型技術》,化學工業出版社;1999年,參加編寫兩章,第9章“模壓成型模具”和第10章“模壓成型機械”,合計8萬字。
(2)《塑膠工程手冊》,機械工業出版社,2000年,參加編寫一章,下冊第2章“塑膠成型理論基礎”,合計5萬字。
(3)《中國管材大全》輕工業出版社,2001年,參加編寫一章,合計0.8萬字。
(4)《簡明材料科學與技術詞典》,科學出版社,2002年,參加編寫高分子材料部分,合計 15萬字。
(5)《納米塑膠》,化學工業出版社,2002年,編著者之一。
(6)《塑膠熱成型及二次加工》,化學工業出版社,2003,主編之一,編寫10萬字。
(7)《材料科學大典》之《橡膠》分冊和《塑膠》分冊,機械工業出版社,2003,合計32萬字。
(8) invited chapter. In-situ microfibrillar reinforced TP (thermoplastic polymer)-TP composites by slit die extrusion, hot stretching and quenching: fabrication, morphology and properties, in Advaced Research in Polymer Science, p1-32
(9) 《高分子科學前沿與進展》,科學出版社,2006年,編著者之一。
部分已發表論文
[1] Huan Xu, Lan Xie, Xin Jiang, Minna Hakkarainen, Ji, , ng-Bin Chen, Gan-Ji Zhong, Zhong-Ming Li. Structural Basis fo, r Unique Hierarchical Cylindrites Induced by Ultrahigh Shear Gradient in Single Natural Fiber Reinforced Poly(lactic acid) Green Composites. Biomacromolecules2014, 15(5), 1676-1686.
[2] Yan-Fei Huang, Jia-Zhuang Xu, Jian-Shu Li, Ben-Xiang He, Ling Xu, Zhong-Ming Li. Mechanical properties and biocompatibility of melt processed, self-reinforced ultrahigh molecular weight polyethylene. Biomaterials2014, 35(25), 6687-6697.
[3] Shuai Li, Wei Wu, Ke-Mao Xiu, Fujian Xu, Zhong-Ming Li, Jian-Shu Li. Doxorubicin Loaded pH-Responsive Micelles Capable of Rapid Intracellular Drug Release for Potential Tumor Therapy. J. Biomed. Nanotechnol.2014, 10(8), 1480-1489.
[4] Hua-Dong Huang, Chun-Yan Liu, Dan Li, Yan-Hui Chen, Gan-Ji Zhong, Zhong-MingLi. Ultra-low gas permeability and efficient reinforcement of cellulose nanocomposite films by well aligned graphene oxide nanosheets. J. Mater. Chem. A2014.DOI: 10.1039/C4TA03305A.
[5]Huan Pang, Ling Xu, Ding-Xiang Yan, Zhong-Ming Li. Conductive polymer composites with segregated structures. Prog. Polym. Sci.2014. DOI: 10.1016/j.progpolymsci.2014.07.007.
[6] Yan-Fei Huang, Jia-Zhuang Xu, Jun-Yi Xu, Zheng-Chi Zhang, Benjamin S. Hsiao, Ling Xu, Zhong-Ming Li. Self-reinforced polyethylene blend for artificial joint application. J. Mater. Chem. B2014, 2(8), 971-980.
[7] Ke Wang, Feng Chen, Zhong-Ming Li, Qiang Fu. Control of the hierarchical structure of polymer articles via "structuring" processing. Prog. Polym. Sci.2014, 39(5), 891-920.
[8] Jia-Zhuang Xu, Gan-Ji Zhong, Benjamin S. Hsiao, Qiang Fu, Zhong-Ming Li. Low-dimensional carbonaceous nanofiller induced polymer crystallization. Prog. Polym. Sci.2014, 39(3), 555-593.
[9] Huan Pang, Yu Bao, Ling Xu, Ding-Xiang Yan, Wei-Qin Zhang, Jian-Hua Wang, Zhong-Ming Li. Double-segregated carbon nanotube-polymer conductive composites as candidates for liquid sensing materials. J. Mater. Chem. A2013, 1(13), 4177-4181.
[10] Huan Xu, Gan-Ji Zhong, Qiang Fu, Jun Lei, Wei Jiang, 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. Inter.2012, 4(12), 6773-6783.
[11] Ling Xu, Chen Chen, Gan-Ji Zhong, Jun Lei, Jia-Zhuang Xu, Benjamin S. Hsiao, , Zhong-Ming Li. Tuning the Superstructure of Ultrahigh-Molecular-Weight Polyethylene/Low-Molecular-Weight Polyethylene Blend for Artificial Joint Application. ACS Appl. Mater. Inter.2012, 4(3), 1521-1529.
[12] Song Tu, Bei-lei Wang, Yuan-wei Chen, Zhong-ming Li, Xiang-lin Luo. Polymeric Nanocubes Spontaneously Formed from Poly(epsilon-caprolactone). ACS Macro. Lett.2012, 1(8), 933-936.
[13] Hu Tang, Jing-Bin Chen, Yan Wang, Jia-Zhuang Xu, Benjamin S. Hsiao, Gan-Ji Zhong, Zhong-Ming Li. Shear Flow and Carbon Nanotubes Synergistically Induced Nonisothermal Crystallization of Poly(lactic acid) and Its Application in Injection Molding. Biomacromolecules2012, 13(11), 3858-3867.
[14] Huan Pang, Ding-Xiang Yan, Yu Bao, Jin-Bing Chen, Chen Chen, Zhong-Ming Li. Super-tough conducting carbon nanotube/ultrahigh-molecular-weight polyethylene composites with segregated and double-percolated structure. J. Mater. Chem.2012, 22(44), 23568-23575.
[15] Ding-Xiang Yan, Peng-Gang Ren, Huan Pang, Qiang Fu, Ming-Bo Yang, Zhong-Ming Li. Efficient electromagnetic interference shielding of lightweight graphene/polystyrene composite. J. Mater. Chem.2012, 22(36), 18772-18774.
[16] Meng Ma, Feng Chen, Ke Wang, Qin Zhang, Hua Deng, Zhong-Ming Li, Qiang Fu. Anisotropic Dewetting Holes with Instability Fronts in Ultrathin Films of Polystyrene/Poly(epsilon-caprolactone) Blend. Macromolecules2012, 45(11), 4932-4937.
[17] Hao-Ran Yang, Jun Lei, Liangbin Li, Qiang Fu, Zhong-Ming Li. Formation of Inter linked Shish-Kebabs in Injection-Molded Polyethylene under the Coexistence of Lightly Cross-Linked Chain Network and Oscillation Shear Flow. Macromolecules2012, 45(16), 6600-6610.
[18] Huan Pang, Chen Chen, Yi-Chuan Zhang, Peng-Gang Ren, Ding-Xiang Yan, Zhong-Ming Li. The effect of electric field, annealing temperature and filler loading on the percolation threshold of polystyrene containing carbon nanotubes and graphene nanosheets. Carbon2011, 49(6), 1980-1988.
[19] Yan-Hui Chen, Gan-Ji Zhong, Jun Lei, Zhong-Ming Li, Benjamin S. Hsiao. In Situ Synchrotron X-ray Scattering Study on Isotactic Polypropylene Crystallization under the Coexistence of Shear Flow and Carbon Nanotubes. Macromolecules2011, 44(20), 8080-8092.
[20] Jia-Zhuang Xu, Chen Chen, Yan Wang, Hu Tang, Zhong-Ming Li, Benjamin S. Hsiao. Graphene Nanosheets and Shear Flow Induced Crystallization in Isotactic Polypropylene Nanocomposites. Macromolecules2011, 44(8), 2808-2818.
[21] Yan-Hui Chen, Yi-Min Mao, Zhong-Ming Li, Benjamin S. Hsiao. Competitive Growth of alpha- and beta-Crystals in beta-Nucleated Isotactic Polypropylene under Shear Flow. Macromolecules2010, 43(16), 6760-6771.
[22] Jia-Zhuang Xu, Tao Chen, Chuan-Lu Yang, Zhong-Ming Li, Yi-Min Mao, Bao-Qing Zeng, Benjamin S. Hsiao. Isothermal Crystallization of Poly(L-lactide) Induced by Graphene Nanosheets and Carbon Nanotubes: A Comparative Study. Macromolecules2010, 43(11), 5000-5008.
[23] Yan-Hui Chen, Gan-Ji Zhong, Yan Wang, Zhong-Ming Li, Liangbin Li. Unusual Tuning of Mechanical Properties of Isotactic Polypropylene Using Counteraction of Shear Flow and beta-Nucleating Agent on beta-Form Nucleation. Macromolecules2009, 42(12), 4343-4348.
[24] Xiao Hu, Haining An, Zhong-Ming Li, Yong Geng, Liangbin Li, Chuanlu Yang. Origin of Carbon Nanotubes Induced Poly(L-Lactide) Crystallization: Surface Induced Conformational Order. Macromolecules2009, 42(8), 3215-3218.
[25]Haining An, Baijin Zhao, Zhe Ma, Chunguang Shao, Xiao Wang, Yapeng Fang, Liangbin Li, Zhongming Li. Shear-induced conformational ordering in the melt of isotactic polypropylene. Macromolecules2007, 40(14), 4740-4743.
[26]Xiang-Bin Xu, Zhong-Ming Li, Lei Shi, Xiang-Cheng Bian, Zhi-Dong Xiang. Ultralight conductive carbon-nanotube-polymer composite. Small2007, 3(3), 408-411.
[27]Hai-Ning An, Bai-Jin Zhao, Zhe Ma, Chun-Guang Shao, Xiao Wang, Ya-Peng Fang, Liang-Bin Li, Zhong-Ming Li. Shear-induced conformational ordering in the melt of isotactic polypropylene. Macromolecules2007, 40(14), 4740-4743.
[28]Gan-Ji Zhong, Liang-Bin Li, Eduardo Mendes, Dmytro Byelov, Qiang Fu, Zhong-Ming Li. Suppression of skin-core structure in injection-molded polymer parts by in situ incorporation of a microfibrillar network. Macromolecules2006, 39(19), 6771-6775.
[29]Z. M. Li, S. N. Li, M. B. Yang, R. Huang. A novel approach to preparing carbon nanotube reinforced thermoplastic polymer composites. Carbon2005, 43(11), 2413-2416.
[30]X. B. Xu, Z. M. Li, M. B. Yang, S. Jiang, R. Huang. The role of the surface microstructure of the microfibrils in an electrically conductive microfibrillar carbon black/poly(ethylene terephthalate)/polyethylene composite. Carbon2005, 43(7), 1479-1487.
[31]Z. M. Li, X. B. Xu, A. Lu, K. Z. Shen, R. Huang, M. B. Yang. Carbon black/poly(ethylene terephthalate)/polyethylene composite with electrically conductive in situ microfiber network. Carbon2004, 42(2), 428-432.