个人简介
1977年12月生,教授、博士生导师。2006年1月获清华大学工学博士学位。近年来发表学术论文100多篇,被sci收录95篇(其中第一作者36篇,通讯作者40篇);获得国家发明专利18项;担任了两本国际期刊的编委和五期特刊的guest editor,并被一些国际会议邀请作报告;此外还担任过三届国际非线性动力学学术研讨会总秘书及分会主席;入选江苏省“六大人才高峰”高层次人才和上海市青年科技启明星计划;曾获2009年度届“scopus寻找未来科学之星”活动中的纳米科学类的青年科学之星称号。迄今为止主持项目10余项,申请发明专利30多项,获省部级奖7项,市厅级奖3项。
研究方向及主讲课程
主要研究方向:功能性纤维材料的制备及应用(生物医用、能量收集与转换、能源器件和环保等)
主讲研究生课程:生物医用纺织材料
荣誉及主要获奖情况
荣誉:
1. 第十二届江苏省纺织青年科技奖,2019年
2. 江苏省第十四批“六大人才高峰”高层次人才,2017年
3. 2009年度上海市青年科技启明星计划(a类)
4. 2008年上海高校选拔培养优秀青年教师计划资助对象
5. 2008年东华大学优秀青年教师后备人选
获奖:
1. 功能性过滤防护纳米纤维膜批量制备的关键技术及产业应用,江苏省科学技术进步奖,2021年
2. 功能性过滤与防护纳米纤维膜批量制备的关键技术及产业应用,“纺织之光”中国纺织工业联合会科学技术奖二等奖,2021年
3. 多场耦合静电纺纳米纤维的制备与机理研究,香港桑麻纺织科技奖二等奖,2017年
4. 多场耦合静电纺纳米纤维关键制备技术及其应用开发,“纺织之光”中国纺织工业联合会科学技术奖三等奖,2016年
5. 非线性振动方程的近似解析方法,江苏省科学技术进步奖三等奖,2015年
6. 气泡静电纺纳米纤维关键制备技术及其应用开发,天津市科学技术进步奖二等奖,2015年
7. 变分迭代算法及其应用,江苏省科学技术进步奖二等奖,2013年
近五年主持的科研项目
1. 国家自然科学基金面上项目,静电纺纳米多孔材料过程中多相射流的机理研究,2017/01-2020/12。
2. 江苏省高校自然科学研究重大项目,喷气静电纺丝多股两相射流的机理研究,2020/10-2023/9。
3. 中国纺织工业联合会科技指导性项目,批量制备纳米纤维的关键技术及其装置研发,2020.6-2021.6
4. 江苏省第十四批“六大人才高峰”高层次人才计划项目,恒定持续供液静电纺装置的开发及纳米纤维的批量制备,2017/07-2021/6。
5. 2015年国家级大学生创新创业训练计划,静电纺载药多孔纳米纤维膜的制备及其性能研究,指导老师;
6. 江苏省高校自然科学研究重大项目,气泡静电纺丝两相流的机理研究,2014/08-2017/12。
7.江苏省自然科学基金面上项目,静电纺纳米多孔材料制备过程的力学机理研究,2013/07-2016/07。
8. 苏州市科技计划项目,静电纺纳米多孔材料的制备机理及应用研究,2014/07-2017/06。
9. 南通市应用研究计划项目,静电纺纳米多孔材料的制备机理及应用研究,2014/07-2016/06。
近五年发表的代表性论文和教材
[1] ye cw, xu l*, recent advances in the design of a high performance metal-nitrogen-carbon catalyst for the oxygen reduction reaction, journal of materials chemistry a, 2021, 9 (39), 22218-22247. (sci一区)
[2] ye cw, xu l*, heteroatom-doped porous carbon derived from zeolite imidazole framework/polymer core-shell fibers as an electrode material for supercapacitor, composites part b, 2021, 225, article id 109256. (sci一区)
[3] yin j, fang y, xu l*, ahmed a, high-throughput fabrication of silk fibroin/hydroxypropyl methylcellulose (sf/hpmc) nanofibrous scaffolds for skin tissue engineering, international journal of biological macromolecules, 2021, 183, 1210-1221. (sci二区)
[4] gao ll, wang y, xu l*, mechanism study of highly ordered jets in an improved electrospinning process, thermal science, 2021, 25(3), 2327-2334. (sci)
[5] ahmed a, yin j, xu l*, high-throughput free surface electrospinning using solution reservoirs with different radii and its preparation mechanism study, journal of materials research and technology-jmr&t, 2020, 9(4): 9059-9072. (sci二区)
[6] yin j, xu l*, batch preparation of electrospun polycaprolactone/chitosan/aloe vera blended nanofiber membranes for novel wound dressing, international journal of biological macromolecules, 2020, 160, 352-363. (sci二区)
[7] xu hh, fang w, xu l*, liu fj*, batch preparation of cuo/zno-loaded nanofiber membranes for photocatalytic degradation of organic dyes, langmuir, 2020, 36 (47), 14189-14202. (sci二区)
[8] ahmed a, xu l*, numerical analysis of the electrospinning process for fabrication of composite fibers, thermal science, 2020, 24(4): 2377-2383. (sci)
[9] wang y, song yh, ye cw, xu l*, structure and electrochemical performance of electrospun ordered porous carbon/graphene composite nanofibers, beilstein journal of nanotechnology, 2020, 11, 1280-1290. (sci)
[10] yin j, wang y, xu l*, numerical approach to high-throughput of nanofibers by a modified bubble-electrospinning, thermal science, 2020, 24(4), 2367-2375. (sci)
[11] fang w, yu l, xu l*, preparation, characterization and photocatalytic performance of heterostructured cuo-zno-loaded composite nanofiber membranes, beilstein journal of nanotechnology, 2020, 11, 631-650. (sci)
[12] ahmed a, xu l*, yin j, wang md, khan f, ali m, high-throughput fabrication of chitosan/poly(ethylene oxide) nanofibers by modified free surface electrospinning, fibers and polymers, 2020, 21(9), 1945-1955. (sci)
[13] cheng tt, li sq, xu l*, ahmed a, controllable preparation and formation mechanism of nanofiber membranes with large pore sizes using a modified electrospinning, materials & design, 2019, 178(15), article id 107867. (sci一区)
[14] wang ff, sun zy, yin j, xu l*, preparation, characterization and properties of porous pla/peg/curcumin composite nanofibers for antibacterial application, nanomaterials, 2019, 9(4), article id 508. (sci二区)
[15] cheng tt, xu l*, wang md*, effect of surface active agent on bubble- electrospun polyacrylonitrile nanofibers, thermal science, 2019, 23(4), 2481- 2487. (sci)
[16] fang w, liu l, xu l*, preparation and characterization of cuo/zno/pvdf/ pan nanofiber composites by bubble-electrospinning, recent patents on nanotechnology, 2019, 13 (3), 196-201. (sci)
[17] song yh, wang y, xu l*, wang md*, fabrication and characterization of electrospun aligned porous pan/graphene composite nanofibers, nanomaterials, 2019, 9(12), article id 1782. (sci二区)
[18] wang yr, cheng tt, xu l*, preparation, characterization, and adsorption application of poly(lacticacid)/tea polyphenols porous composite nanofiber membranes, journal of the textile institute, 2019, 110(12), 1760-1766. (sci)
[19] song yh, xu l*, sui jh*, fabrication and characterization of magnetic nanocomposites by electric fields assisted electrospinning, thermal science, 2019, 23(4), 2365-2372. (sci)
[20] fang y, xu l*, four self-made free surface electrospinning devices for high-throughput preparation of high-quality nanofibers, beilstein journal of nanotechnology, 2019, 10, 2261-2274. (sci)
[21] fang y, xu l*, wang md*, high-throughput preparation of silk fibroin nanofibers by modified bubble-electrospinning, nanomaterials, 2018, 8(7), article id 471. (sci二区)
[22] wang yr, xu l*, preparation and characterization of porous core-shell fibers for slow release, polymers, 2018, 10(2), article id 144. (sci二区)
[23] xu l, a particle suspension model for nanosuspensions electrospinning, thermal science, 2018, 22(4), 1707-1714. (sci)
[24] wang yr, xu l*, sui jh*, fan cx, preparation, characterization and drug release of salicylic acid loaded porous electrospun nanofibers, recent patents on nanotechnology, 2018, 12(3), 208-217. (sci)
[25] yu l, shao zb, xu l*, wang md*, high throughput preparation of aligned nanofibers using an improved bubble-electrospinning, polymers, 2017, 9(658), 1-9. (sci二区)
[26] song, y.h., *xu, l, permeability, thermal and wetting properties of aligned composite nanofiber membranes containing carbon nanotubes, international journal of hydrogen energy 42 (2017), 19961-19966.(sci二区)
[27] shao zb, yu l, *xu l, wang md, high-throughput fabrication of quality nanofibers using a modified free surface electrospinning, nanoscale research letters, 12 (2017) 470-478. (sci二区)
[28] song, y.h., sun, z.y., *xu, l, shao, z.b., preparation and characterization of highly aligned carbon nanotubes/polyacrylonitrile composite nanofibers, polymers 9(1) (2017) 1-13.(sci二区)
[29] fan cx, sun zy, *xu l, fluid-mechanic model for fabrication of nanoporous fibers by electrospinning, 2017, thermal science, 21(4): 1621-1625.(sci)
[30] zhao, jh, liu, hy,*xu, l, preparation and formation mechanismof highly aligned electrospun nanofibers using a modified parallel electrode method, materials & design, 90: 1-6, 2016. (sci一区)
[31] sun, zy, fan, cx, et al.,*xu, l, characterization and antibacterial properties of porous fiberscontaining silver ions, applied surface science, 387: 828–838, 2016. (sci二区)
[32] zhao, jh, si, n,*xu, l, tang, xp, experimental and theoretical study on the electrospinning nanoporous fibers process, materials chemistry and physics, 170: 294-302, 2016. (sci二区)
[33] zhao jh, sun zy, shao zb, *xu l, effect of surface-active agent on morphology and properties of electrospun pva nanofibres, fibers and polymers, 2016, 17(6): 896-901.(sci)
授权发明专利情况
1. 用于增强碳纤维与树脂基体的复合性能的方法, zl 2019 1 0034454.3.
2. 负载在纳米纤维膜上的cuozno异质结构及其制备方法,zl 2018 1 0256997.5
3. 一种pla-tps纳米纤维膜及其制备方法和应用,zl 2017 1 1274993.1
4. 多孔核壳结构纳米纤维及其制作方法,zl 2017 1 0281900.1
5. 一种制备纳米纤维纱系统,zl 2017 1 0137725.9
6. 一种制取丝素纳米纤维丝及纤维纱的纺丝装置,zl 2016 1 1111252.7
7. 一种纳米纤维制备装置,zl 2016 1 1109431.7
8. 一种漏斗式喷气纺丝装置,zl 2016 1 0564496.4
9. 利用静电纺丝技术制备纳米多孔材料的方法,zl 20131 0151102.9
10. 利用静电纺丝技术制备有序纳米磁性复合材料的方法,zl 2013 1 0495947.x
11. 可调聚合物溶液粘度的静电纺丝装置,zl 2013 1 0597147.9
12. 用于制备纳米多孔纤维的静电纺丝装置,zl 20131 0597327.7
13. 可调节聚合物射流速度的静电纺丝装置,zl 2013 10153383.1
14. 电磁场耦合法制备纳米纤维的静电纺丝装置,zl 201310703715.9
15. 静电纺丝装置,zl 2012 1 0245532.2
ku平台官网入口的联系方式
e-mail: lanxu@suda.edu.cn
