纺织科学与工程学院-刘延波导师介绍
刘延波
教授
硕,博士生导师
女
纺织科学与工程学院
纺织科学与工程
纳米纤维材料宏量制备及应用
yanboliu@gmail.com
刘延波,女,学士和硕士毕业于天津纺织工学院纺织系,博士毕业于美国田纳西大学材料科学与工程系,现就职于武汉纺织大学,二级教授,硕博导师。国务院政府特殊津贴专家,江苏省创新创业人才,泉州市桐江学者特聘教授。瑞典IAAM(International Association of Advanced Materials)中国区理事会成员,中国复合材料学会超细纤维分会副主任委员;中国产业用纺织品行业协会静电纺丝专委会副主任委员;中国微米纳米技术学会高级会员;《产业用纺织品》编委会成员;全国材料与器件科学家智库专家委员会高级会员;中国纺织工程学会高级会员;中国纺织工程学会高级会员;广西省科技项目、自然基金项目函评专家;教育部学位与研究生教育发展中心,全国研究 生教育评估监测专家库专家;江苏省江阴华思诚无纺布有限公司技术顾问;孝感联成无纺布有限公司、联赛医用产品(湖北)有限公司、武汉联好防护用品有限公司高级研究员。发表论文150余篇,其中最高影响因子40.4,两篇论文为ESI 高被引;主编出版英文专著1部;授权专利21项,主持完成国家自然基金面上项目2项,参与完成国家自然基金面上项目2项、青年基金项目1项;主持国内外纳米纤维材料相关学术会议并作大会主旨报告、特邀报告、邀请报告30余次,多次获得各类教学、科研奖励和人才称号,包括国务院政府特殊津贴专家、江苏省创新创业人才、泉州市桐江学者特聘教授、中国纺织工业联合会纺织之光优秀教师、武汉纺织大学“最美教师”、“科技标兵”、“优秀导师”、“人才先进工作者”、“三全育人”优秀教师,以及2024新质力材料发展交流平台行业领军人物奖、2025第十届全国静电纺丝组委会突出贡献奖、2022中国纺织工业联合会纺织高等教育教学成果特等奖、2018中国纺织工业联会科学技术进步一等奖、2017 江苏省科技进步三等奖、2015天津科委科技进步二等奖、2014中国纺织工业联合会科学技术进步一等奖、2015 IOP(英国物理研究所)英国皇家化学学会Electrospinning Book 奖、2011 中国纺织工业协会教学成果二等奖。
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科研项目
1.国家自然基金面上项目:基于分数维理论的纳米纤维宏量制备机理研究,批准号51973168,2020.1-2023.12,直接经费60万元,主持,结题。
2.国家自然基金面上项目:基于分形原理的阵列静电纺丝机理研究, 78万元,批准号51373121,2014.1.1~2017.12.31,主持,结题。
3.国家自然基金面上项目:尖端辅助电极在静电纺多射流形成与调控中的作用机制及其应用研究,51573133,63万,2016.1-2019.12,排名3,结题。
4.国家自然基金面上项目,熔喷超细纤维非织造成型机理的研究,31万元,项目批准号50976019,2010,01-2012.12,排名3,结题。
5.国家自然基金青基项目:项目名称:基于级联随机共振的变工况针刺机状态辨识理论与方法研究.项目批准号:51005168; 项目经费:20万元, 2011.01.01~2013.12.31,排名3,结题。
6.湖北省科技厅项目:湖北省引才引智示范基地项目(学科创新类):基地名称: 纳米纤维宏量制备创新引智基地,项目编号:XKCX2019000006,2019,经费130万元;基地负责人,主持,在研。
7.天津市自然科学基金项目:静电纺纳米纤维材料工业化制备技术研究,项目编号10YFYBJC10300,;项目经费10万元;2010.04~2013.03,主持,结题。
8.天津市科技支撑重点项目:项目名称:基于蛋白酶集成催化体系的羊毛高品质化研究及其产业化;合同编号:10ZCKFSH00800,2010.10.01~2013.04.01,项目经费:90万元,主持,结题并通过验收。
9.江苏省组织部项目:2011江苏省“创新创业”引进人才项目,纳米纤维PM2.5高温过滤技术开发;合作单位:江苏菲特滤料有限公司;合同编号:130179;2011.11.01~2013.12.31,项目经费:10万元/50万元,主持 ,结题。
10.小型静电纺丝系统开发,稳健医疗(武汉)有限公司,2022.12.09~2023.08.08, 50万元,主持,结题。
11.中科贝斯达(厦门)环保科技股份有限公司,横向项目:功能性吸附隔离防护材料开发,2020.10.01~2020.12.31,60万元,主持,结题。
12.植物染色技术研究中心协议(含补充协议),2018~,烟台业林纺织印染有限责任公司,10万元,主要成员,结题。
13.吉林省华纺静电材料科技有限公司项目:荷电纤维及产品开发,2016~2018,30万元,结题,完成。
14.重庆中纳科技有限公司项目:电纺纳米纤维制备技术开发,2016~2024,160万元,主持,结题。
15.广州禹德投资有限公司横向合作项目:静电纺丝产品开发;合同编号:130181;项目经费:100万元;2011.12.16~2014.12.15,主持,结题。
16.浙江伟星实业发展股份有限公司横向合作项目: 纳米纤维防水透湿技术开发; 项目编号:130177;项目经费:60万元。2012.11.01至2013.06.30,主持,结题。
17.江苏南纬悦达纺织研究院有限公司横向合作项目: 规模化静电纺丝技术开发; 项目编号:130180;项目经费:20万元;2013.11.01~2014.12.31,主持,结题。
18.广州禹德投资有限公司横向项目,可工业化生产纳米纤维材料的静电纺丝设备及材料开发,总合同经费1000万元,2011.5~2015.5,排名1/10,主持,结题。
19.中国恒天集团应用基础研究项目: 静电纺纳米纤维材料工业化制备技术研究,2007.12~2010.12,主持,结题。
20.北京市外专局引智项目:亲水性PP熔喷无纺布的开发,2008.3~2010.3,主持,结题。
21.中国恒天集团/宏大研究院有限公司博士后站研究项目:静电纺丝技术及其在非织造布的应用;2008.3~2010.12. 博士后工作站课题,主持,结题。
22.天津纺织工学院-内蒙古赤峰市第二毛纺织厂的校企横向联合项目,砂洗毛织物的开发, 1997~1997,主持,结题。
23.天津纺织工学院-青海省科委的纵向科研项目,粗次毛的开发与利用, 1996~1996,排名2,结题。
24.天津纺织工学院-中国纺织工业部纵向科研项目,形状记忆毛织物的研究与开发, 1995~1995,主持,结题。
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研究成果
授权专利
1. 一种可用于大规模生产纳米纤维的静电纺设备,专利号 ZL 200820127732.7
2. 一种锯齿式无针头静电纺丝装置,授权号ZL2012 1 0347514. 5
3. 一种离心式无针头静电纺丝装置,授权号ZL 2012 10347515.X
4. 一种增强静电纺纳米纤维膜的方法,授权号ZL 2013 10390081.6
5. 一种圆盘式无针头静电纺丝装置,授权号ZL 2013 10414922.2
6. 一种尖端式无针头静电纺丝设备,授权号ZL20132020273877.9
7. PCT 欧洲专利:一种新颖的增强静电纺纳米纤维膜、其生产方法以及用于该方法的设备,授权专利号:EP3040462。
8. 一种实心针头静电纺丝装置,专利号 ZL 201610804952.8。
9. 一种便于加电的非金属转轴,专利号ZL201610804951.3.
10. 一种基于实心针喷丝装置的静电喷丝系统,实用新型专利号ZL201720779872.1。
11. 一种抗水解的电纺PVA/甘油交联纳米纤维膜及其制备方法,发明专利号ZL201810101874.4. 20210219.
12. 一种抗水解的电纺PVA/戊二醛交联纳米纤维膜及其制备方法,发明专利号ZL 201810102905.8.
13. 一种抗水解的电纺PVA/PAA交联纳米纤维膜及其制备方法,发明专利号ZL201810101862.1.
14. 一种二次螺线静电纺丝头及三次螺线静电纺丝头,发明专利号ZL 2022 10015130.7。20230321
15. 一种超疏水亲油熔喷PP非织造材料的制备方法,发明专利号202111668689.1。
16. 一种移动式电流体喷射装置,实用新型专利号ZL2022 2 2340768.6
17. 一种基于矩形叶片的放射状电纺喷嘴,发明专利号 ZL 201810504595.2
18. 基于环形均布多叶片的开放式电纺喷嘴,发明专利号 ZL 2019 1 0706505.2,申请日2019.07.19,授权2021.10.08.
19. 一种无针式放射状静电纺丝头装置,实用新型专利号ZL 2022 2 2848678.8。
20. 一种均匀针头电场强度的静电纺丝装置,实用新型专利号ZL 2022 2 2873907.1。
21. 一种高弹性细菌纤维素气凝胶制备方法及应用,发明专利号ZL202211415336.5。
学术论著
1. Xiaodong Hu, Wang Tang, Fuhua Huang, Wenchang Zhou, Mao Feng, YanboLiu*, Xiaoxiao Wang*, Jinlong Hu*, Hai Yang. Liquid bridge inspired 3Dmesh-like nanocellulose aerogel cross-linked by“spot welding”. ChemicalEngineering Journal 515 (2025) 163414. https://doi.org/10.1016/j.cej.2025.163414.
2. Chen Yang, Yanbo Liu, Gaigai Duan, Chunmei Zhang, Yong Huang, ShanshanLi, Shaohua Jiang. Research progress on improving dispersion stability ofnanocellulose in different media: A review. International Journal ofBiological Macromolecules Volume 304, Part 2, April 2025, 140967. https://doi.org/10.1016/j.ijbiomac.2025.140967.
3. Chunyang Jiang, Ziyi Yan, Yuefeng Bai, Ruoxin Li, Mingrui Wu, Wen-HaoYu, Hong-Mei Chen, Ping Hu, Ke-Qin Zhao, Kangmin Niu, Yanbo Liu, Shih-Hsin Ho,Wei Wang & Yen Wei. Scalable, High-Efficiency Porous Monolithic PolymerFoam for Solar-Driven Interfacial Water Evaporation and Lithium Extraction.2025, npj Clean Water (2025)8 :47. https://doi.org/10.1038/s41545-025-00474-2.
4. Yaqin Zhu, Shiyuan Wang, Yanbo Liu, Jingquan Han, Gaigai Duan, QiliangFu, Xiaoshuai Han, Chunmei Zhang, Shuijian He, Shaohua Jiang. Structuremodifications of wood-based materials for water treatment applications: Areview. Materials Today, 2025. Available online 7 May 2025. https://doi.org/10.1016/j.mattod.2025.04.012.
5. Ming Hao, Xiaodong Hu, Zhijun Chen, Bo Yang, Yanan Liu, Qiang Wang,Xinyu Gao, Yanbo Liu*, Xiaoxiao Wang*, and Yong Liu*. Textile-Based TENG Wovenwith Fluorinated Polyimide Yarns for Motion and Position Monitoring. ACSApplied Materials & Interfaces, 2025, 17, 1038−1048, published Dec 21, 2024. https://doi.org/10.1021/acsami.4c16468
6. Ming Hao, Xifeng Zhang, Hui Pan, Xiaodong Hu, Zhijun Chen, Bo Yang,Yanan Liu,Xinyu Gao, Qiang Wang, Zhicheng Chen, Yanbo Liu*, Xiaoxiao Wang**,Yong Liu**. In-situ bonding enables robust fluorinated poly(imide-siloxane)based triboelectric nanogenerator for firefighter motion and locationmonitoring, Nano Energy 138 (2025) 110856. https://doi.org/10.1016/j.nanoen.2025.110856.
7. Tianyi Zhang, Bo Yang, Ming Hao, Xiaodong Hu, Yanbo Liu*, Xiaoxiao Wang**.PDA@ BaTiO₃/CB doping enhances the piezoelectric properties of PVDF membranefor energy harvesting and sensor components. Journal of EnvironmentalChemical Engineering 13 (2025) 115335. https://doi.org/10.1016/j.jece.2025.115335.
8. Chen Yang, Yanbo Liu, Gaigai Duan, Chunmei Zhang*, Yong Huang, ShanshanLi**, Shaohua Jiang***. Research Progress on improving dispersion stability ofnanocellulose in different media: A review. International Journal ofBiological Macromolecules 304 (2025) 140967. https://doi.org/10.1016/j.ijbiomac.2025.140967.
9. JianLiu*, Shoujun Dong, Chenghao Wang, Yanbo Liu**, Shanshan Pan and Zhaosong Yin. Researchon Electric Field Homogenization in Radial Multi-Nozzle Electrospinning. Nanomaterials2024, 14, 1199. https://doi.org/10.3390/nano14141199.
10. Yanan Liu, Ming Hao, Xiaodong Hu, ZhijunChen, Bo Yang, Yanbo Liu,* Xiaoxiao Wang,* and Yen Wei. Solar-PoweredHigh-Efficiency Interface Evaporator Based on Polyimide Nanofiber Aerogel forWater Purification. ACS Applied Polymer Materials 2024, 6,10029−10039. https://doi.org/10.1021/acsapm.4c01960.
11. Yaqin Zhu, Gaigai Duan, Weijie Wu, YanboLiu*, Shiyi Zeng, Haoqi Yang**, Xiaoshuai Han, Shuijian He, Chunmei Zhang***,Jingquan Han, Shaohua Jiang,**** Ultrafast and energy-efficient flowthroughcapture of antibiotics through areusable MOF@wood membrane adsorbent. Journalof Membrane Science 2025, 714: 123411. https://doi.org/10.1016/j.memsci.2024.123411.SCI一区, IF8.4.
12. Zixuan Guo, Zhiwei Tian, Yanbo Liu*,Linhu Ding, Shaohua Jiang**, Weijie Wu a, Chunmei Zhang ***, Xiaoshuai Han,Gaigai Duan,* A review of cellulose and lignin contained rattan materials:Structure, properties, modifications, applications and perspectives. InternationalJournal of Biological Macromolecules 2025, 290: 139081. https://doi.org/10.1016/j.ijbiomac.2024.139081.
13. Yanbo Liu, Tianyi Zhang, Bo Yang, MingHao, Xiaodong Hu, and Xiaoxiao Wang. High-Performance Lightweight and FlexiblePVDF-B/MXene/Chitosan Composite Aerogel for Sensitive Self-Powered Sensing. AppliedPolymer Materials 2024, 6,12983-12991. https://doi.org/10.1021/acsapm.4c01731.
14. Bo Yang, Xifeng Zhang, Jiakang Tang,Xinyu Zhu, Ming Hao, Xiaodong Hu and Yanbo Liu*. A BaTiO3@polyacrylonitrile/poly(vinylidenefluoride) nanofibrous composite membrane with high piezoelectricity based onthe central combination design method and cross-electrospinning technology. Textile Research Journal 2024, Vol. 94(19–20) 2273–2283. online April 25,2024, https://doi.org/10.1177/00405175241246820.
15. Qin Qin, Shiyi Zeng, Gaigai Duan, YanboLiu*, Xiaoshuai Han, Ruizhi Yu, Yong Huang, Chunmei Zhang, Jingquan Han and ShaohuaJiang. “Bottom-up” and “top-down” strategies toward strong cellulose-basedmaterials. Chemical Society Review, Chem. Soc. Rev. 2024,53,9306-9343, 15 Aug 2024, https://doi.org/10.1039/D4CS00387J. (SCI一区, IF40.4)
16. Jingjiang Yang, Yifan Wang, Yanbo Liu*,Gaigai Duan, Zhao Liang*, Jingquan Han, Yong Huang, Xiaoshuai Han, ChunmeiZhang*, Shuijian He, Shaohua Jiang*. Design of cyclic carbonate-basedelectrolytes for HC anodes towards improved low-temperature performance inlithium-ion batteries system. Fuel 379 (2025) 133048. Online 09Sep 2024, https://doi.org/10.1016/j.fuel.2024.133048.
17. Mingjin Yang, Yanbo Liu*, Gaigai Duan, Zhao Liang, YongHuang, Chunmei Zhang, Xiaoshuai Han, Chunxin Ma, Shuijian He, Shaohua Jiang.Recent advances of biomass-based smart hydrogel Actuators: A review. ChemicalEngineering Journal, 2024,498, 155157. Online 24 August 2024, https://doi.org/10.1016/j.cej.2024.155157.
18. Xiuling Yang, Yanbo Liu*, Yong Huang,Xiaoshuai Han, Gaigai Duan, Hui Fu*, Jingquan Han, Chunmei Zhang, Shuijian He,Shaohua Jiang. Coordination-driven in-situ controlled synthesis ofcellulose-based fluorescent composite with tunable color for decoration,anti-counterfeiting, and accurate color recognition. InternationalJournal of Biological Macromolecules 2024, 278, Part 4, October 2024,134890. Online 30 Aug 2024, https://doi.org/10.1016/j.ijbiomac.2024.134890.
19. Yanbo Liu, Yanan Liu, Lingling Liu,Ming Hao, Xiaodong Hu, Xiaoxiao Wang and Bo Yang. Numerical simulation for electric field intensityand jet space of the quadraticspiral spinneret with auxiliary electrode.Textile Research Journal, 2024, 94(5-6): 649-657.
20. Yanbo Liu, Qiang Wang, Tianyi Zhang,Ming Hao, Xiaodong Hu, Zhijun Chen, Bo Yang. Fabrication of breathablesuperhydrophobic composite fabric with moisture permeability andweak-electric-field bactericidal ability designed for protective clothingapplications. Materials & Design, 2024, 237: 112612.
21. Tianyi Zhang, Bo Yang, Qiang Wang,Xiaodong Hu, Zhijun Chen,Yanbo Liu*, Xiaoxiao Wang, Ming Hao. Rapid preparation of PET-PVDF Janus fiber felt foremulsion separation, Separation and Purification Technology,Volume 330, Part C,1 February 2024, 125466. https://doi.org/10.1016/j.seppur.2023.125466.
22. Xiaodong Hu, Shanshan Zhang, Bo Yang,Ming Hao, Zhijun Chen, Yanbo Liu*, Xiaoxiao Wang, Jinbo Yao, Preparation ofambient-dried multifunctional cellulose aerogel by freeze-linking technique. ChemicalEngineering Journal, 477 (2023) 147044, https://doi.org/10.1016/j.cej.2023.147044.
23. Xiaodong Hu, Tianyi Zhang, Bo Yang,Ming Hao, Zhijun Chen, Yen Wei, Yanbo Liu*, Xiaoxiao Wang, Jinbo Yao.Water-resistant nanocellulose/gelatin biomass aerogel for anionic/cationic dyeadsorption, Separation and Purification Technology 330 (2024)125367, https://doi.org/10.1016/j.seppur.2023.125367.
24. Yanan Liu, Ming Hao, Zhijun Chen,Seeram Ramakrishna, Yanbo Liu*, Xiaoxiao Wang, Xiaodong Hu, Yen Wei. Recentadvances in the development of nanofiber-based aerogel for oil-waterseparation: A review. Fuel, 354(2023)129338.
25. Xiaodong Hu, Shanshan Zhang, Bo Yang,Ming Hao, Zhijun Chen, Yanbo Liu*, Seeram Ramakrishna, Xiaoxiao Wang, JinboYao. Bacterial cellulose composite aerogel with high elasticity and adjustablewettability for dye absorption and oil–water separation, Applied SurfaceScience, 640(2023)158299.
26. Ming Hao, Tianyi Zhang, Xiaodong Hu,Zhijun Chen, Bo Yang, Xiaoxiao Wang, Yanbo Liu*, Run Wang, Yong Liu. Facile,Green and Scalable Preparation of Low-Cost PET-PVDF Foams for Oil Absorptionand Oil/Water Separation. Journal of Hazardous Materials 448(2023) 130804. https://doi.org/10.1016/j.jhazmat.2023.130804.
27. Ming Hao, Yanbo Liu*, Zhijun Chen,Xiaodong Hu, Tianyi Zhang, Xinyu Zhu, Xingyu He, Bo Yang. Cross-Linked GammaPolyglutamic Acid/Human Hair Keratin Electrospun Nanofibrous Scaffolds withExcellent Biocompatibility and Biodegradability. December 2022, Polymers(Basel) 14 (24) : 5505, DOI: 10.3390/polym14245505.
28. Xiaodong Hu, Bo Yang, Ming Hao, ZhijunChen, Yanbo Liu*, Seeram Ramakrishna, Xiaoxiao Wang*, Jinbo Yao. Preparation ofhigh elastic bacterial cellulose aerogel through thermochemical vapordeposition catalyzed by solid acid for oil-water separation. CarbohydratePolymers 305 (2023) 120538 (1-11), https://doi.org/10.1016/j.carbpol.2023.120538.
29. Bo Yang, Ming Hao, Zheng Huang, ZhijunChen, and Yanbo Liu*. High filterable and semi-durable electrospun nanofibrousmembrane with charged electret after electrification treatment for airfiltration. Published: 22 February 2023, Fibers and Polymers,volume 24,pages 921–929 (2023) . https://link.springer.com/article/10.1007/s12221-023-00110-1.
30. Zhijun Chen, Yanbo Liu*, Juan Huang,Ming Hao, Xiaodong Hu, Xiaoming Qian, Jintu Fan, Hongjun Yang and Bo Yang. Influencesof Process Parameters of Near-Field Direct-Writing Melt Electrospinning onPerformances of Polycaprolactone/Nano-Hydroxyapatite Scaffolds. Polymers,19 Aug 2022, 14(16), 3404. https://doi.org/10.3390/polym14163404.
31. Zhijun Chen, Yanbo Liu*, Juan Huang,Han Wang, Ming Hao, Xiaodong Hu, Xiaoming Qian, Jintu Fan, Hongjun Yang, BoYang. Enhanced Vitro-Biocompatible Polycaprolactone/nano-HydroxyapatiteScaffolds with Near-field Direct-writing Melt Electrospinning Technology. Journalof Functional Biomaterials, 202209, 13, 161. https://doi.org/10.3390/jfb13040161.
32. Bo Yang, Yi Wei, Yiping Qiu, SeeramRamakrishna, Yanbo Liu*. A novel bio-based, flame retardant and latentimidazole compound – its synthesis and uses as curing agent for epoxy resins. Journalof Applied Polymer Science. 202208: e53079, 1-12. DOI: 10.1002/app.53079.
33. Bo Yang, YiWei, Yanbo Liu* and YipingQiu. A Thermal latent imidazole complex containing copper (II) as the curingagent for an epoxy-based glass fiber composite. Textile Research Journal,2022, Vol. 92(11–12) 1867–1875.
34. Bo Yang, Shan Jiang, Juan Huang, Ming Hao, TianyiZhang, Seeram Ramakrishna, Yanbo Liu*. Chapter 20 - Applications offluoropolymer nanocomposites in textile industry, in edited book: AdvancedFluoropolymer Nanocomposites: Fabrication, Processing, Characterization andApplications. Woodhead Publishing Series in Composites Science andEngineering 2023, Pages 719-754. https://doi.org/10.1016/B978-0-323-95335-1.00012-8.
35. Yanbo Liu*, Xinyu Zhu, Yunxia Chen, Cong Zhou,Zhijun Chen, Ming Hao, Xiaodong Hu, Bo Yang. Cross-electrospun PVDF/PVDF-HFPnanofibrous membrane with central combination design and its waterproof andmoisture permeable composite fabric. Textile Research Journal, 2022:93(9-10), 2273–2289. https://doi.org/10.1177/00405175221144086.
36. Chang Huang, Xizi Xu, Junhao Fu,Deng-Guang Yu, and Yanbo Liu*. Recent Progress in Electrospun PolyacrylonitrileNanofiber-Based Wound Dressing. Polymers 2022, 14, 3266. https://doi.org/10.3390/polym14163266.
37. Xinkuan Liu, Mingxin Zhang, WenliangSong, Yu Zhang, Deng-Guang Yu, and Yanbo Liu*. Electrospun Core(HPMC–Acetaminophen)–Shell (PVP–Sucralose) Nanohybrids for Rapid Drug Delivery.Gels 2022, 8, 357. https://doi.org/10.3390/gels8060357. (SCI 2区, IF 5.0, 2022ESI高被引论文).
38. Yanbo Liu*, Ming Hao, Linhong Gong, Qian Chen,Rongrong Pang, Lingling Liu, Ming Zeng, Xin Luo, Yong Liu, Seeram Ramakrishna.Chapter 9: Scale-up strategies for nanofibers production, in the book of “Electrospun and Nanofibrous Membranes:Principles and applications”, Elsevier, 2022.09.27, Editors: AliKargari, Takeshi Matsuura, Mohammad Shirazi, eBook ISBN: 9780128230572 / Paperback ISBN: 9780128230329, 662 pages. https://www.elsevier.com/books/electrospun-and-nanofibrous-membranes/978-0-12-823032-9
39. CHEN Zhijun, HAO Ming, QIAN Xiaoming,CHEN Wenyang, ZENG Ming, HUANG Juan, LI Ruixin, FAN Jintu and LIU Yanbo*.Characterization on Modification and Biocompatibility of PCL Scaffold Preparedwith Near-field Direct-writing Melt Electrospinning. Chem. Res. ChineseUniversities. 19 May 2021, 37,578–583 (2021). https://doi.org/10.1007/s40242-021-1129-z.
40. Yanbo Liu*, Ming Hao, Zhijun Chen,Lingling Liu, Yao Liu, Wenxiu Yang, Seeram Ramakrishna. A Review on RecentAdvances in Application of Electrospun Nanofiber Materials as Biosensors. CurrentOpinion in Biomedical Engineering, 2020, 13:174–189. https://doi.org/10.1016/j.cobme.2020.02.001.
41. Tao Xu, Fan Zheng, Zhijun Chen, YichunDing, Zhipeng Liang, Yanbo Liu, Zhengtao Zhu, Hao Fong. Halloysite nanotubessponges with skeletons made of electrospun nanofibers as innovative dyeadsorbent and catalyst support. Chemical Engineering Journal,Volume 360, 15 March 2019, Pages 280-288.
42. Wenxiu Yang, Jian Liu, Yanbo Liu*, XueminHu, Jinbo Yao, Zhijun Chen, Ming Hao, Wenjun Tian, Zheng Huang and Fangying Li. Multilayer NanofiberComposite Separator for Lithium-Ion Batteries with High Safety. Polymers.2019, 11, 1671; 14 pages, http://dx.doi.org/10.3390/polym11101671.
43. Yanbo Liu*, Ce Wang. AdvancedNanofibrous Materials Manufacture Technology based on Electrospinning,editioned book, published in March 2019, CRC Press, Taylor & FrancisGroup, ISBN: 978-1-4987-8112-1, 480 pages.
44. Jian Liu, Yanbo Liu*, Wenxiu Yang, Qian Ren, FangyingLi, Zheng Huang. Lithium ion battery separator with high performance and highsafety enabled by tri-layered SiO2@PI/m-PE/SiO2@PInanofiber composite. Journal of Power Sources, 2018(396):265-275, https://doi.org/10.1016/j.jpowsour.2018.06.008. 被引96次(202503) .
45. Jian Liu, Yanbo Liu*,Samman hassan Bukhari, Qian Ren, Chunhua Wei, Xiuming Jiang.Electric FieldSimulation and Optimization on Solid-core Needles of Electrospinning Device [J].Chemical Journal of Chinese University,2017,38(6):1011-1017.
46. Nanping Deng, Weimin Kang, Yanbo Liu,Jingge Ju, et al. A review on separators for ithiumesulfur battery: Progressand prospects. Journal of Power Sources. 2016(331) 132-155.
47. Wenxiu Yang, Yanbo Liu, Ligai Zhang,Hong Cao, et al. Optimal spinneret layout in Von Koch curves of fractal theorybased needleless electrospinning process. AIP Advances, 2016 (6),065223:1-15.
48. Weiya Chen, Yanbo Liu, * Ying Ma,Wenxiu Yang. Improved performance of lithium ion battery separator enabled byco-electrospinning polyimide/poly(vinylidene fluorideco- hexafluoropropylene)and the incorporation of TiO2-(2-hydroxyethyl methacrylate). Journalof Power Sources, 273 (2015) 1127-1135.
49. Weiya Chen, Yanbo Liu*, Ying Ma,Jiezheng Liu, Xiangren Liu. Improved performance of PVDF-HFP/PI nanofibermembrane for lithium ion battery separator prepared by a bicomponentcross-electrospinning method. Materials Letters, 01/2014,133:67-70.
50. Yanbo Liu*, Lingling Guo. HomogeneousField Intensity Control During Multi-Needle electrospinning via Finite ElementAnalysis and Simulation, Journal of Nanoscience and Nanotechnology.Vol. 13, No. 2, 2013, p843-847.
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学校介绍
武汉纺织大学在新中国振兴民族轻工业的呼声中应运而生,其前身是始建于1958年的武汉纺织工学院,1999年更名为武汉科技学院。湖北省对外贸易学校、湖北财经高等专科学校先后并入,2010年更名为武汉纺织大学。
学校秉承“崇真尚美”的校训,弘扬“自强不息、经天纬地”的大学精神,坚持特色发展,实行开放办学,主动服务纺织行业和地方经济社会发展,历经六十余载,已成为理、工、文、法、经、管、艺等多学科协调发展、特色鲜明、优势突出的普通高等院校,是国家首批“中西部高校基础能力建设工程”建设高校、教育部“卓越工程师教育培养计划”实施高校、湖北省“国内一流学科”建设高校、全国十大时装名校,致力于建设学术实力强、育人环境美、文化氛围浓、师生认可高、社会声誉好的美好纺大。
学校位于湖北省武汉市,占地2000余亩,拥有四个校区,设有20个教学院部,各级各类全日制在校生20000余人。现有本科专业67个,其中国家特色专业4个、国家级一流专业建设点11个,教育部工程教育认证专业2个、“卓越工程师教育培养计划”专业8个,湖北省品牌专业7个、省级一流专业建设点16个;拥有15个硕士学位授权一级学科、9个硕士专业学位授权类别,七大学科门类;拥有8个湖北省一级重点学科、5个省优势和特色学科,“现代纺织技术”和“时尚创意文化”2个学科群列入湖北省“十三五”省属高校优势特色学科群重点建设,纺织科学与工程入选湖北省“国内一流学科建设学科”。材料科学、化学、工程学3个学科进入ESI全球排名前1%。
学校实施人才高地汇聚工程。坚持引育并重,打造一支有理想信念、有道德情操、有扎实学识、有仁爱之心的“四有”好老师队伍,是首批“湖北省海外高层次人才创新创业基地”。学校现有教职员工2000余人,专任教师1300余人,其中具有高级职称教师700余人,博士700余人。长期在校工作的院士、外籍院士7人,其中自主培养俄罗斯自然科学院院士1人;国家级人才10人,省级各类人才200余人,享受国务院政府特殊津贴38人,享受湖北省政府专项津贴12人;拥有一批具有海外学习背景的“阳光学者”。
学校实施人才培养质量工程。坚持立德树人,以本为本,推进“四个回归”,实施人才培养能力提升三年行动计划,完善“五育并举”育人格局,构建“产出导向”的人才培养体系,大力开展“新工科、新文科”建设,着力培养“知识、能力、品格”协调发展的应用型创新人才。学校整体进入一本招生,拥有国家级教学团队和国家级人才培养模式改革实验区,国家级一流本科课程2门,国家精品开放课程6门,获批教育部新工科研究与实践项目1项;近几年获得国家高等学校教学成果二等奖2项,省部级教学成果一等奖11项。学校大力实施创新创业教育,实行“前创后厂”模式,建有湖北省大学生创新创业示范基地,学生的创新能力、实践能力和综合素质等不断提高,在各类国家级、省级学科竞赛中取得丰硕成果。
学校实施科技实力攀登工程。注重技术创新,培育重大科研成果,推进成果转化,不断提升科技竞争力。拥有纺织新材料与先进加工技术国家重点实验室,还拥有国家地方联合工程实验室、教育部重点实验室、教育部工程研究中心、全国普通高校中华优秀传统文化传承基地及一批省级重点研究基地。相继承担国家基金项目、“973”、“863”项目和重点支撑计划等国家和省部级重大科研课题近200项,一批科研成果达到国际国内先进水平,在纺织、印染、服装和艺术等方面具有鲜明的特色和优势。近几年学校荣获国家科学技术进步一等奖1项、二等奖3项,国家技术发明二等奖2项。学校与纺织服装产业集中地区共建产学研“根据地”,一批校地、校企合作项目在湖北、安徽、江苏、浙江、山东等地落地,服务社会能力显著增强。
学校大力加强国际交流与合作。注重引进国外优质教育资源,积极发展留学生教育,不断提升国际化水平。是“欧洲纺织大学联盟”第一个中国大陆成员、“英国纺织学会”“美国纤维学会”理事成员、“一带一路”纺织高等教育联盟发起单位、“一带一路”世界纺织大学联盟理事单位、中国-中东欧国家(17+1)高校联盟地方合作高校,中国政府奖学金委托培养院校和英国纺织学会中国地区办公室依托单位。学校建有教育部首个行业中外人文交流研究院——纺织行业中外人文交流研究院。学校拥有湖北省第一个本科层次中外合作办学机构——武汉纺织大学伯明翰时尚创意学院。与英国曼彻斯特大学、日本文化学园大学开展了本科层次的合作办学项目,与澳大利亚、美国、俄罗斯、捷克有关高校联合培养博士生,并与英国、美国、法国、德国、澳大利亚、俄罗斯、日本、韩国等国家近200所大学签署了国际交流合作协议。学校长期承办由中国商务部和联合国贸易与发展会议联合主办的“发展中国家服务贸易”国际研修班,获批多项“世界著名科学家来鄂讲学计划”项目,连续多年主办和承办各类大型国际学术会议,学校国际化进程稳步推进。
潮平两岸阔,风正一帆悬。武汉纺织大学与时代发展同步伐、与民族工业共命运,坚持服务社会之道,谋求特色发展之路,为振兴民族工业和湖北省经济社会发展做出了重要的贡献。“十四五”时期,学校将立足新发展阶段,贯彻新发展理念,融入新发展格局,坚持系统观念,统筹事业发展与安全,以立德树人为根本,以学生为中心,全面加强党的领导、全面深化综合改革、全面推进依法治校、全面提高人才培养质量,着力培养应用型创新人才,提升科技创新和成果转化能力,为区域经济社会发展和纺织行业转型升级做出新的更大贡献。
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1.我校研究生奖助体系健全,设有国家层面、行业层面、社会层面及学校层面等四大类共10余种奖助学金。详情如下:
2.学校同时实施“四鹰计划”,符合相关条件者均可申请相应奖助:
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