2013年课题组发表论文


[1] Chen, Wei., Li, Xiangyang., Li, Hailong., Su, Fengmei., Zhou, Weiming., and Li, Liangbin., ‘‘Deformation-induced crystal-crystal transition of polybutene-1: an in situ FTIR imaging study,’’ Journal of Materials Science 48, 4925-4933 (2013).



[2] Huang, Youju., Wang, Daoliang., Xu, Lu., Cong, Yuanhua., Li, Junjun., and Li, Liangbin., ‘‘Multiscale fibers via supramolecular self-assembly of a fully rigid, discotic aromatic aramid molecule,’’ European Polymer Journal 49, 1682-1687 (2013).



[3] Li, Junjun., Huang, Ningdong., Wang, Daoliang., Xu, Lu., Huang, Youju., Chen, Mingming., Tao, Jiaojiao., Pan, Guoqiang., Wu, Ziyu., and Li, Liangbin., ‘‘Highly ordered, ultra long nanofibrils via the hierarchical self-assembly of ionic aromatic oligoamides,’’ Soft Matter 9, 4642-4647 (2013).



[4] Li, Xiangyang., Su, Fengmei., Ji, Youxin., Tian, Nan., Lu, Jie., Wang, Zhen., Qi, Zeming., and Li, Liangbin., ‘‘Influence of the memory effect of a mesomorphic isotactic polypropylene melt on crystallization behavior,’’ Soft Matter 9, 8579-8588 (2013).



[5] Liu, Dong., Tian, Nan., Cui, Kunpeng., Zhou, Weiqing., Li, Xiangyang., and Li, Liangbin., ‘‘Correlation between Flow-Induced Nucleation Morphologies and Strain in Polyethylene: From Uncorrelated Oriented Point-Nuclei, Scaffold-Network, and Microshish to Shish,’’ Macromolecules 46, 3435-3443 (2013).



[6] Meng, Lingpu., Li, Jing., Cui, Kunpeng., Chen, Xiaowei., Lin, Yuanfei., Xu, Jiali., and Li, Liangbin., ‘‘A simple constrained uniaxial tensile apparatus for in situ investigation of film stretching processing,’’ Review of Scientific Instruments 84, 115104 (2013).



[7] Su, Fengmei., Li, Xiangyang., Zhou, Weiming., Chen, Wei., Li, Hailong., Cong, Yuanhua., Hong, Zhihua., Qi, Zeming., and Li, Liangbin., ‘‘Accelerating crystal-crystal transition in poly(1-butene) with two-step crystallization: An in-situ microscopic infrared imaging and microbeam X-ray diffraction study,’’ Polymer 54, 3408-3416 (2013).



[8] Su, Fengmei., Li, Xiangyang., Zhou, Weiming., Zhu, Shanshan., Ji, Youxin., Wang, Zhen., Qi, Zeming., and Li, Liangbin., ‘‘Direct Formation of Isotactic Poly(1-butene) Form I Crystal from Memorized Ordered Melt,’’ Macromolecules 46, 7399-7405 (2013).



[9] Tian, Nan., Liu, Dong., Li, Xiangyang., Wang, Zhen., Zhu, Shanshan., Cui, Kunpeng., Zhou, Weiqing., and Li, Liangbin., ‘‘Relaxation propelled long period change in the extension induced crystallization of polyethylene oxide,’’ Soft Matter 9, 10759-10767 (2013).



[10] Tian, Nan., Zhao, Baijin., Li, Xiangyang., Liu, Yanping., Zhou, Weiqing., Cui, Kunpeng., Liu, Dong., and Li, Liangbin., ‘‘Confined crystallization in end-linked PEO network under uniaxial extension,’’ Polymer 54, 7088-7093 (2013).



[11] Wang, Daoliang., Huang, Youju., Li, Junjun., Xu, Lu., Chen, Mingming., Tao, Jiaojiao., and Li, Liangbin., ‘‘Lyotropic Supramolecular Helical Columnar Phases Formed by C-3-Symmetric and Unsymmetric Rigid Molecules,’’ Chemistry-a European Journal 19, 684-689 (2013).



[12] Xu, Lu., Huang, Youju., Li, Junjun., Wang, Daoliang., Chen, Mingming., Tao, Jiaojiao., Cui, Kunpeng., Pan, Guoqiang., Huang, Ningdong., and Li, Liangbin., ‘‘A New Three-Dimensional (3D) Multilayer Organic Material: Synthesis, Swelling, Exfoliation, and Application,’’ Langmuir 29, 3813-3820 (2013).



[13] Zhou, Weiqing., Cui, Kunpeng., Tian, Nan., Liu, Dong., Liu, Yanping., Meng, Lingpu., Li, Xiangyang., He, Jie., Li, Liangbin., Li, Xiuhong., and Tian, Feng., ‘‘Disentanglement decelerating flow-induced nucleation,’’ Polymer 54, 942-947 (2013).



[14] Zhu, Shanshan., Wang, Zhen., Su, Fengmei., Zhou, Weiqing., Tian, Nan., Li, Xiangyang., and Li, Liangbin., ‘‘The influence of inertia and elastic retraction on flow-induced crystallization of isotactic polypropylene,’’ Journal of Rheology 57, 1281-1296 (2013).




[15] Li, Hailong., Zhou, Weiming., Ji, Youxin., Hong, Zhihua., Miao, Bing., Li, Xiangyang., Zhang, Jing., Qi, Zeming., Wang, Xiao., Li, Liangbin., and Li, Zhong.-Ming., ‘‘Spatial distribution of crystal orientation in neck propagation: An in-situ microscopic infrared imaging study on polyethylene,’’ Polymer 54, 972-979 (2013).