教育经历:
1996年9月至2000年6月,就读于苏州大学材料学院,高分子材料与工程 工学学士学位。
2002年9月至2005年6月,就读于伟德国际1946源自英国化学学院,高分子物理与化学 理学硕士学位。
2005年9月至2008年6月,就读于伟德BETVLCTOR体育,高分子材料与科学 工学博士学位。
工作经历:
2000年7月至2002年8月,于诺瓦化学(苏州)有限公司任职研发专员,从事功能纺织助剂产品设计研发。
2008年7月至今,于伟德BETVLCTOR体育任教,从事高分子材料学科的教学及科研工作。
2014年8月至2016年8月于美国北卡州立大学纺织学院(College of Textile,North Carolina State University)XiangwuZhang教授课题组进行访学研究,主要从事聚合物新能源材料与器件的开发与研究工作。
简介:
研究团队长期致力于聚合物溶液加工成型领域的工程化研究以及聚合物能源材料与器件方向的材料科学基础研究。团队在高性能纤维成型和特种膜材料的开发领域有着丰富的工作经验。主持承担有教育部博士点基金、国家自然科学基金、国家重点研发计划、四川省先进材料重大科技专项、四川省重点研发项目及多项企业合作项目。已发表科研论文80余篇,其中SCI收录40余篇;申请专利26项,其中已授权19项。主持编写专著《高性能纤维技术丛书—高强高模聚乙烯醇纤维》,参与编写“十一五”国家级规划教材《高分子材料设计与应用》。
课题组于2016年起设立了聚合物新能源材料与器件研究方向,并与美国NorthCarolinaStateUniversity张向武教授课题组开展合作,拓展传统高分子材料在能源材料领域内的应用。通过研究,团队在水凝胶聚合物电解质、聚合物单离子导体、导电聚合物负极粘结剂、高比能水系超级电容构建等领域取得了众多突破,在Small,Progress in Energy and Combustion Science,ACS Applied Energy Materials,Journal of Materials Chemistry A,ACS applied materials & interfaces等杂志发表了多篇高水平研究论文。
课题组目前主要研究方向:①先进低维材料(纤维/薄膜)聚合物溶液加工成型原理研究与技术开发;②聚合物新能源材料与器件。欢迎各位有志于我国高性能纤维/薄膜材料发展突破的同学,以及对聚合物新能源材料与器件有强烈兴趣与爱好的同学,报考并加入我们的研究团队!
附录:
部分研究论文:
30. Yu, Y.; Yang, C.; Jiang, Y.; Zhu, J.; Zhao, Y.; Liang, S.; Wang, K.; Zhou, Y.; Liu, Y.; Zhang, J.;Jiang, M., Sponge‐Like Porous‐Conductive Polymer Coating for Ultrastable Silicon Anodes in Lithium‐Ion Batteries.Small 2023, 2303779.
29. Liang, S.; Xie, Q.; Xu, Q.; Sun, Z.; Liu, Y.; Jiang, X.; Liu, P.;Jiang, M., Enhancing anti‐meltdrop and smoke suppression properties of flame retardant poly (ethylene terephthalate) fabric by fiber‐blending method.Journal of Applied Polymer Science 2023, e53981.
28. Xie, Q.; Li, W.; Li, B.; Sun, Z.; Liang, S.; Zhou, Y.;Jiang, M., Dry‐jet wet spinnability of poly (1, 4‐phenylene‐1, 3, 4‐oxadiazole) fiber: The influence of polymer intrinsic viscosity and spinning dope temperature.Journal of Applied Polymer Science2023, 140 (19), e53820.
27. Sun, Z.; Zhu, J.; Yang, C.; Xie, Q.; Jiang, Y.; Wang, K.;Jiang, M., N-Type Polyoxadiazole Conductive Polymer Binders Derived High-Performance Silicon Anodes Enabled by Crosslinking Metal Cations.ACS Applied Materials & Interfaces 2023, 15 (10), 12946-12956.
26. Zhou, Y.; Li, W.; Zhu, J.; Liang, S.; Xie, Q.;Jiang, M., Superior flame retardant and cost-effective aromatic polyoxydiazole fibers enabled by 2, 6-Naphthalenedicarboxylic acid.Journal of Polymer Research 2022, 29 (10), 440.
25. Li, D.; Luo, L.; Zhu, J.; Qin, H.; Liu, P.; Sun, Z.; Lei, Y.;Jiang, M., A hybrid lithium sulfonated polyoxadiazole derived single-ion conducting gel polymer electrolyte enabled effective suppression of dendritic lithium growth.Chinese Chemical Letters 2022, 33 (2), 1025-1031.
24. Feng, W.; Xie, Q.; Li, W.; Gao, J.; Liang, J.;Jiang, M., Ultraviolet resistance modification of poly (1, 3, 4‐oxadiazole) fibers by dihydroxyterephthalic acid.Journal of Applied Polymer Science 2022, 139 (26), e52427.
23. Yu, Y.; Zhu, J.; Zeng, K.;Jiang, M., Mechanically robust and superior conductive n-type polymer binders for high-performance micro-silicon anodes in lithium-ion batteries.Journal of Materials Chemistry A 2021, 9 (6), 3472-3481.
22. Yu, Y.; Gao, H.; Zhu, J.; Li, D.; Wang, F.; Jiang, C.; Zhong, T.; Liang, S.;Jiang, M., Ionic/electronic conductivity regulation of n-type polyoxadiazole lithium sulfonate conductive polymer binders for high-performance silicon microparticle anodes.Chinese Chemical Letters 2021, 32 (1), 203-209.
21. Wang, F.; Song, Y.; Liang, S.; Yu, Y.; Liang, J.;Jiang, M., Polyamidoxime nanoparticles/polyvinyl alcohol composite chelating nanofibers prepared by centrifugal spinning for uranium extraction.Reactive and Functional Polymers 2021, 159, 104812.
20. Li, D.; Wang, H.; Luo, L.; Zhu, J.; Li, J.; Liu, P.; Yu, Y.;Jiang, M., Electrospun Separator Based on Sulfonated Polyoxadiazole with Outstanding Thermal Stability and Electrochemical Properties for Lithium-Ion Batteries.ACS Applied Energy Materials 2021, 4 (1), 879-887.
19. Li, D.; Luo, L.; Zhu, J.; Qin, H.; Liu, P.; Sun, Z.; Lei, Y.;Jiang, M., A hybrid lithium sulfonated polyoxadiazole derived single-ion conducting gel polymer electrolyte enabled effective suppression of dendritic lithium growth.Chinese Chemical Letters 2021.
18. Zhu, J.; Yan, C.; Zhang, X.; Yang, C.;Jiang, M.; Zhang, X., A sustainable platform of lignin: From bioresources to materials and their applications in rechargeable batteries and supercapacitors.Progress in Energy and Combustion Science 2020, 76, 100788.
17. Yu, Y.; Zhu, J.; Gao, H.; Yang, C.; Chen, S.; Zhang, S.;Jiang, M., Preparation and characterization of a class of self‐doping aromatic polyoxadiazole electrochromic materials.Journal of Applied Polymer Science 2020, 137 (45), 49406.
16. Yang, C.; Li, D.; Gao, H.; Liu, Q.; Zhu, J.; Wang, F.;Jiang, M., Constructing High-Energy-Density Aqueous Supercapacitors with Potassium Iodide-Doped Electrolytes by a Precharging Method.ACS Applied Energy Materials 2020, 3 (3), 2674-2681.
15. Liu, Q.; Cao, K.; Qi, S.; Yang, Y.; Liang, S.; Gao, H.; Yang, C.; Li, D.;Jiang, M., The effects of surfactants on the spinnability, structure and properties of dry-jet wet spinning poly (m-phenylene isophalamide) fiber.Fibers and Polymers 2020, 21 (7), 1438-1443.
14. Liang, S.; Wang, F.; Liang, J.; Chen, S.;Jiang, M., Synergistic effect between flame retardant viscose and nitrogen-containing intrinsic flame-retardant fibers.Cellulose 2020, 27 (10), 6083-6092.
13. Li, W.; Qi, S.; Liu, Q.; Gao, H.; Liang, S.; Feng, W.;Jiang, M., Thermal degradation and flame retardant mechanism of sulfonated polyoxadiazole fibers modified by metal ions.Journal of Polymer Research 2020, 27 (12), 1-9.
12. Gao, H.; Mao, J.; Li, D.; Yu, Y.; Yang, C.; Qi, S.; Liu, Q.; Zhu, J.;Jiang, M., Lithium Sulfonated Polyoxadiazole as a Novel Single-Ion Polymer Electrolyte in Lithium-Ion Batteries.Journal of The Electrochemical Society 2020, 167 (7).
11. Xue, R.; Mao, J.; Zhao, H.; Yang, C.; Gao, H.; Xu, J.;Jiang, M., Effect of nano silicon dioxide on the structure and properties of FeCl3‐doped polyvinyl alcohol photopolymer film.Journal of Applied Polymer Science 2019, 136 (26), 47702.
10. Lv, W.; Xue, R.; Chen, S.;Jiang, M., Temperature stability of symmetric activated carbon supercapacitors assembled with in situ electrodeposited poly (vinyl alcohol) potassium borate hydrogel electrolyte.Chinese Chemical Letters 2018, 29 (4), 637-640.
9. Song, Y.; Zhang, X.; Ye, G.; Xu, J.;Jiang, M., Water‐resistant modification of poly (vinyl alcohol)/polyamidoxime chelating fibers prepared by emulsion spinning and their adsorption properties.Journal of Applied Polymer Science 2017, 134 (25).
8. Xu, W.; Yu, C.; Zhao, X.; Xu, J.;Jiang, M., Melamine formaldehyde/polyvinyl alcohol composite fiber: structures and properties controlled by reaction‐induced phase separation.Journal of Applied Polymer Science 2016, 133 (4).
7. Jiang, M.; Zhu, J.; Chen, C.; Lu, Y.; Pampal, E. S.; Luo, L.; Zhu, P.; Zhang, X., Superior high-voltage aqueous carbon/carbon supercapacitors operating with in situ electrodeposited polyvinyl alcohol borate gel polymer electrolytes.Journal of Materials Chemistry A 2016, 4 (42), 16588-16596.
6. Jiang, M.; Zhu, J.; Chen, C.; Lu, Y.; Ge, Y.; Zhang, X., Poly (vinyl alcohol) borate gel polymer electrolytes prepared by electrodeposition and their application in electrochemical supercapacitors.ACS applied materials & interfaces 2016, 8 (5), 3473-3481.
5. Song, Y.; Li, J.; Ye, G.; Xu, J.;Jiang, M., Polyamidoxime/poly (vinyl alcohol) composite chelating fiber prepared by emulsion spinning and its adsorption properties for metal ions.Industrial & Engineering Chemistry Research 2015, 54 (49), 12367-12373.
4. Li, Z.; He, W.; Xu, J.;Jiang, M., Preparation and characterization of in situ grafted/crosslinked polyethylene glycol/polyvinyl alcohol composite thermal regulating fiber.Solar Energy Materials and Solar Cells 2015, 140, 193-201.
3. Yu, C.; Xu, W.; Zhao, X.; Xu, J.;Jiang, M., Effects of the reaction degree of melamine-formaldehyde resin on the structures and properties of melamine-formaldehyde/polyvinyl alcohol composite fiber.Fibers and Polymers 2014, 15 (9), 1828-1834.
2. Xu, W.; Dong, S.; Yu, C.; Yan, X.; Xu, J.;Jiang, M., Melamine formaldehyde/polyvinyl alcohol composite fiber: structure and properties manipulated by hydroxymethylation degree.Journal of Applied Polymer Science 2014, 131 (17).
1. Chen, W.; Fu, X.; Ge, W.; Xu, J.;Jiang, M., Microencapsulation of bisneopentyl glycol dithiopyrophosphate and its flame retardant effect on polyvinyl alcohol.Polymer degradation and stability 2014, 102, 81-87.
部分授权专利:
14.梁劲松,彭涛,姜猛进等,一种杂环芳纶纺丝原液的改性方法、改性杂环芳纶纺丝原液及应用,中国发明专利, 专利号:ZL202110798997.x
13.姜猛进,曹凯凯,刘倩丽等,一种间位芳香族聚酰胺纺丝原液的改性方法,中国发明专利,专利号:ZL202010191376.0
12.姜猛进,高慧慧,徐建军等,电极粘接剂及其制备方法和锂离子电池负极及锂离子电池,中国发明专利,专利号:ZL201910820964.3
11.姜猛进,齐世凯,施楣梧等,一种阻燃芳香族聚噁二唑聚合物及其制备方法,中国发明专利,专利号:ZL201910570484.6
10.姜猛进,徐建军,毛建昭等,一种锂离子聚合物电解质膜及其制备方法与应用,中国发明专利,专利号:ZL201811033817.3
9.姜猛进,张向武,宋永娇等,一种耐高压水系电容器及其制作方法,中国发明专利,专利号:ZL201610826654.9
8.姜猛进,张向武,宋永娇等,直接在电极表面制备聚乙烯醇硼酸盐络合水凝胶电解质的方法,中国发明专利,专利号:ZL201510548954.0
7.姜猛进,傅思迪,曾栌贤等,导电/导磁化学纤维的磁场诱导辅助纺丝成型装置及其生产方法,中国发明专利,专利号:ZL201510416128.0
6.姜猛进,许维星,王晓东等,氧化银抗菌粘胶纤维及其原位反应的制备方法,中国发明专利,专利号:ZL201410182587.2
5.姜猛进,李俊繁,宋永娇等,一种偕胺肟化聚丙烯腈胶乳/聚乙烯醇复合螯合纤维的制备方法,中国发明专利,专利号:ZL201310497026.7
4.姜猛进,李佳佳,王建铨等,一种原位交联聚乙二醇/聚乙烯醇相变储能纤维的制备方法,中国发明专利,专利号:ZL201210569858.0
3.姜猛进,黎莉,王华全等,一种聚乙烯醇缩甲醛纤维的制备方法,中国发明专利,专利号:ZL201210416178.5
2.姜猛进,韦啸,叶光斗等,用多元羧酸作为交联剂制备蛋白质/聚乙烯醇复合纤维的方法,中国发明专利,专利号:ZL201210042482.8
1.姜猛进,傅峰,徐建军等,一种无卤阻燃聚丙烯纤维的制备方法,中国发明专利,专利号:ZL201110120927.5
代表性产业化成果:
6.完成了“高性能间位芳纶长丝”的国产替代项目中试。与中车时代新材合作首次通过干湿法纺丝技术实现了高性能间位芳纶长丝的高速制备,解决了高性能间位芳纶长丝依赖进口的“卡脖子”问题。
5.打通了“PVA基水洗固体光敏树脂版”国产替代的核心生产技术。通过水溶性光敏树脂配方设计,结合湿法流延和多层复合技术打通了国产PVA基水洗光敏树脂版的全套技术流程,突破了水基柔性印版技术完全被国外垄断的问题。
4.攻克了抗原检测核心材料“NC多孔层析膜”的整套生产技术,基于全国产原材料开发出“温湿双重诱导相分离技术”实现高性能NC膜的批量制备,项目产品已用于合作单位抗原检测试剂盒的批量生产和市场投放。
3.与晨光化工研究院合作实现了芳纶Ⅲ长丝的干湿法高效制备,解决了刚性链非液晶聚合物半稀溶液的中高速干湿法纺丝技术难题,突破了第二代杂环芳纶的高效制备技术。
2.完成了“差别化POD纤维纺前注射混合技术”的开发,与江苏宝德新材料有限公司合作,实现了原液着色POD纤维的开发和稳定生产。
1.完成了“差别化维纶纺前注射混合生产技术”的开发,与上海全宇生物科技有限公司合作实现了原液着色维纶、高强阻燃维纶等差别化维纶的开发和稳定生产,企业销售差别化维纶产品8000余万元。