Li Haoyi

Author:留学生办公室 Release date:2024-03-08

Introduction of Doctor and Master Supervisor of Beijing University of Chemical Technology


Name

姓名

Li Haoyi(李好义)

Gender

性别

Male

College

学院

College of Mechanical and Electrical Engineering

Highest degree

最高学历

Ph.D candidate

Professional Title

职称

Associate Professor

Discipline/Major

专业

1.Mechanical engineering

2.Mechanical design and theory

3.Advanced manufacturing of polymer materials

Research Area/Direction

招生研究方向

1.Green and efficient manufacturing of polymer microfibers

2.Polymer melt electrowriting 3D printing

3.Advanced manufacturing and application of micro- and nano materials

Office Phone

办公电话

01064434734

Cell Phone

手机号码


Email

邮箱

lhy@mail.buct.edu.cn

Research Topicsno more than 100 words)研究方向

1.Electrospinning

2.Green and efficient manufacturing of polymer microfibers

3.Polymer melt electrowriting 3D printing

4.Advanced manufacturing and application of micro- and nano materials

5.Biomedical materials and devices

Education Background 教育背景

2009/09~2015/01, Master and Ph.D, College of Mechanical and Electrical Engineering, Beijing University of Chemical Technology

2005/09~2009/07, Bachelor, College of Mechanical and Electrical Engineering, Beijing University of Chemical Technology

Work Experience 工作经历

2021/01~Present,Associate professor, College of Mechanical and Electrical Engineering, Beijing University of Chemical Technology

2017/04~2020/12, Lecturer, College of Mechanical and Electrical Engineering, Beijing University of Chemical Technology

2015/03~2017/03, Postdoctoral Fellow, College of Materials Science and Engineering, Beijing University of Chemical Technology


Publications(no more than 10 representative publications) 发表文章

SCI(There are 14 papers by the first author or corresponding author, including 4 in the TOPs):

[1] Xiaoqing ChenImdad AliLijian SongPeng SongYouchen ZhangSemeniuk MariaSaadat NazmusWeimin YangHom Nath DhakalHaoyi Li*Mohini SainSeeram Ramakrishna. A review on recent advancement of nano-structured-fiber-based metal-air batteries and future perspective[J]. Renewable and Sustainable Energy Reviews, 2020.134.(TOP)

[2] Xibiao Li;Changfeng Guan;Xiaodong Gao;Xiahua Zuo;Weimin Yang;Hua Yan;Meinong Shi;Haoyi Li*;Mohini Sain. High Efciency Solar Membranes Structurally Designed 3Dcore-2D Shell SiO2@Amino-Carbon Hybrid Advanced Composite for Facile Steam Generation[J]. ACS Applied Materials & Interfaces, 2020, doi.org/10.1021/acsami.0c10461. (TOP)

[3] Mingjun Chen;Youchen Zhang;Xiaoqing Chen;Weimin Yang;Haoyi Li*;Maryam Yousefzadeh;Seeram Ramakrishna, Polymer melt differential electrospinning from a linear slot spinneret[J]. Journal of Applied Polymer, 2020, 137(31).

[4] Imdad AliWeimin YangXudong LiAhsan AliZhiwei JiaoPengcheng XieOtavio Augusto Titton DiasMuhammad PervaizHaoyi Li*Mohini Sain. Highly electro-responsive plasticized PVC/FMWCNTs soft composites: A novel flex actuator with functional characteristics[J]. European Polymer Journal,2020.126.

[5] Du, Lin;Zhang, Youchen;Li, Xiangnan;Wang, Jun;Chen, Mingjun;Zuo, Xiahua1;Yang, Weimin;Yousefzadeh, Maryam;Ramakrishana, Seeram;Li, Haoyi*.High performance anti-smog window screens via electrospun nanofibers[J]. Journal of Applied Polymer, 2020, 137(19).

[6] Chen, X., Zhang, Y., He, X., Li, H*., Wei, B., & Yang, W.. Electrospinning on a plucked string[J]. Journal of materials science, 2019, 54(1): 901910. (TOP)

[7] Zhang, Y., Zhang, L., Cheng, L., Qin, Y., Li, Y*., Yang, W., & Li, High Efficient preparation of polymer nanofibers by needle roller electrospinning with low threshold voltage[J].Polymer Engineering & Science, 2019, 59(4): 745751.  

[8] Memon, I. A., Xudong, L., Xiaoqing, C., Zhiwei, J., Pervaiz, M., Weimin, Y., Haoyi, Li*., & Sain, M.. A review of electrostimulated gels_and_their applications: Present state_and_future perspectives[J]. Materials Science_and_Engineering: C, 2019: 109852.  (TOP)

[9] Yujian Liu, Jing Tan, Shaoyang Yu, Maryam Yousefzadeh, Tingting Lyu, Zhiwei Jiao, Haoyi Li*, Seeram Ramakrishna, High‐efficiency preparation of polypropylene nanofiber by melt differential centrifugal electrospinning[J]. Journal of Applied Polymer Science, 2019(12):48299.

[10] Qin, Y., Cheng, L., Zhang, Y., Chen, X., Wang, X., He, X., ... & Li, H*. Efficient preparation of poly(lactic acid) nanofibers by melt differential electrospinning with addition of acetyl tributyl citrate[J]. Journal of Applied Polymer Science, 2018, 135(31).

[11] Ying An, Shaoyang Yu, Shoumeng Li, Xun Wang, Weimin Yang, Maryam Yousefzadeh, Mahmoud M Bubakir, Haoyi Li*. Melt-electrospinning of Polyphenylene Sulfide[J]. Fibers and Polymers, 2018, 19(12): 2507-2513.

[12] Xiaoqing Chen, Lisheng Cheng, Haoyi Li*, Ahmed Barhoum, Youchen Zhang, Xuetao He, Weinmin Yang, Mahmoud M Bubakir, Hongbo Chen.Magnetic Nanofibers: Unique Properties, Fabrication Techniques, and Emerging Applications[J]. ChemistrySelect, 2018, 3(31).

[13] Xiaolu Ma, Liyan Zhang, Jing Tan, Yongxin Qin, Hongbo Chen, Wanlin He, Weimin Yang, Haoyi Li*. Continuous manufacturing of nanofiber yarn with the assistance of suction wind and rotating collection via needleless melt electrospinning[J]. Journal of Applied Polymer Science, 2017, 134(20).

[14] Li H, Li Y, Yang W, et al. Needleless Melt-Electrospinning of Biodegradable Poly(Lactic Acid) Ultrafine Fibers for the Removal of Oil from Water[J]. Polymers, 2017, 9(2):3.


Chinese EI(There are 14 papers by the first author or corresponding author):

[15] 周惠林,杨卫民,李好义*, 医用口罩过滤材料的研究进展.[J]纺织学报,2020,8158-165

[16] 谢超,邢健,丁玉梅,王循,杨卫民,李好义*. 熔体微分电纺回收PP无纺布纳米纤维膜制备及吸油性能[J]. 材料工程, 2020, 048(006):125-131.

[17] 王晓辉,丁玉梅,王军,陈明军,杨卫民,李好义*, 热气流辅助熔体微分电纺聚乳酸纤维制备 [J].高分子材料科学与工程,2020,6: 79-8390

[18] 刘宇健,谭晶,陈明军,余韶阳,李好义*,杨卫民. 静电纺纳米纤维纱线研究进展[J]. 纺织学报, 2020, 41(02).

[19] 吕婷婷,安瑛,李好义,刘宇健,焦志伟, 静电纺动物蛋白纳米纤维研究进展[J].纺织学报,2019,12,140-145;

[20] 雷文龙,张莉彦,李轶,杨卫民,李好义*. 电纺直写制备聚己内酯支架形貌及精度[J]. 化工进展, 2019, 38(05):22992305.

[21] 吕婷婷,安瑛,刘宇健,李好义*,谭晶,杨卫民. 静电纺丝制备蛋清蛋白/聚氧化乙烯纳米纤维[J].化工进展, 2019, 038(012):5487-5491.

[22] 姚子琪,马东明,雷文龙,焦志伟,李好义*,徐小东,张有忱. 熔体静电纺丝直写技术在组织工程中的应用进展[J]. 化工进展, 2019, 038(008):3756-3762.

[23] 余韶阳,安瑛,李守猛,王循,钟强,雷文龙,丁玉梅,杨卫民,李好义*. 高黏度聚乳酸(PLA)熔体微分离心静电纺丝[J]. 化工进展, 2019, 38(03):36-41.

[24] 王循,丁玉梅,余韶阳,杜琳,杨卫民,李好义*,陈明军. 熔体微分电纺PLA/OMMT可降解纳米纤维膜制备及污染处理[J]. 材料工程, 2019, 47(007):99-105.

[24] 杜琳, 张有忱, 杨卫民, 丁玉梅, 谭晶, 李好义*. 熔体微分静电纺聚丙烯空气驻极体滤膜的制备及其性能[J]. 纺织学报, 2018, 39(10): 12-17.EI

[26] 陈明军,张有忱,杜琳,李好义*,丁玉梅,杨卫民. 聚合物熔体法制备纳米纤维技术研究现状[J]. 纺织学报, 2018, 39(12):172-180.

[27] 王循,丁玉梅,秦永新,杨卫民,李好义*,陈宏波. 熔体微分电纺PLA/ATBC纳米纤维膜吸油性能[J]. 化工进展, 2018, 37(11):275-281.

[28] 张艳萍,张莉彦,陈宏波,杨卫民,谭晶,李好义*. 双锥面熔体微分静电纺中


Writings(The author of one Chinese (second author) and two chapters of English books):

[1] 杨卫民,李好义,阎华,吴昌政,纳米材料前沿--纳米纤维静电纺丝[M]北京,化学工业出版社, 2018

[2] Barhoum A, Li H, Chen M,Yang Weimin, Emerging applications of cellulose nanofibers(4 chapters in book” Handbook of Nanofibers ”)[M]NetherlandsSpringer publishing2019

[3] Yang W, Li H, Chen X, Melt Electrospinning (chapter in book)[M]EnglandWilliam Andrew Publishing2019

Authorized Patents:

International invention patent1 U.S. patent, ranked 2nd

[1] Yang W, Li H, Jiao Z, et al. Melt differential electrospinning device and process: U.S. Patent 10,344,400[P]. 2019-7-9. (Ranked.2)

National invention patents (4 ranked 1st)

[2] 杨卫民,张政和,谭晶,李好义,丁玉梅.碳纤维激光制造及其原位3D织造一体化成型设备与工艺. 2017109033574[P]. 2019.11.15. (Ranked.4)

[3] 杨卫民,鉴冉冉,谢鹏程,谭晶,焦志伟,阎华,李好义,丁玉梅. 一种高速自适应液压浮动模板的合模机构. 201710822350X[P]. 2019.08.23. (Ranked.7)

[4] 李好义,杨涛,丁玉梅,杨卫民. 一种改善超高分子量聚乙烯塑化和输送性能的方法及装置. 2016111148105[P]. 2019.05.07. (Ranked.1)

[5] 张莉彦,张艳萍,李好义,何万林,马小路,陈宏波,丁玉梅,杨卫民. 一种针片辊式无针静电纺丝装置. 2016112042305[P]. 2019.05.07. (Ranked.3)

[6] 杨卫民,鉴冉冉,刘由之,李好义,阎华,丁玉梅. 一种双面静电纺丝制双面绣的装置. 2016110687423[P]. 2019.05.07. (Ranked.4)

[7] 李好义,李轶,杨卫民,丁玉梅,谭晶,程礼盛. 基于纳米纤维模板法的微流控芯片制作方法. 2017102771816[P]. 2019.05.07. (Ranked.1)

[8] 李好义,杜琳,张有忱,谭晶,焦志伟,阎华,张莉彦,谢鹏程,丁玉梅,杨卫民. 一种多针旋转加捻的熔体电纺纳米捻线制备装置及方法. 2016109729321[P]. 2018.12.04. (Ranked.1)

[9] 丁玉梅,何万林,李好义,杨卫民. 一种热气流辅助双静电场静电纺丝装置. 2016109794655[P]. 2018.12.04. (Ranked.3)

[10] 李好义,杜琳,张有忱,谭晶,焦志伟,阎华,张莉彦,谢鹏程,丁玉梅,杨卫民. 一种功能纳米线的制备装置. 2016109757711[P]. 2018.10.02. (Ranked.1)

[11] 谭晶,马小路,张莉彦,李好义,谢鹏程,焦志伟,阎华,丁玉梅,杨卫民. 一种气流集束旋转加捻的纳米捻线制备装置及工艺. 2016102746805[P]. 2018.05.25. (Ranked.4)

[12] 杨卫民,马小路,李好义,张莉彦,阎华,谭晶,焦志伟,谢鹏程,丁玉梅. 一种磁悬浮式离心静电纺丝装置. 2016102721973[P]. 2017.10.27. (Ranked.3)

[13] 张莉彦,张艳萍,谭晶,李好义,丁玉梅,杨卫民. 一种多孔柔性管无针静电纺丝装置. 2015106506596[P]. 2017.06.23. (Ranked.4)

[14] 杨卫民,马小路,谭晶,李好义,阎华,张莉彦,张有忱,丁玉梅. 一种熔体微分静电纺丝装置. 2015102345839[P]. 2017.05.10. (Ranked.4)

[15] 杨卫民,吴昌政,李好义,谭晶,阎华,焦志伟,谢同维,丁玉梅. 一种超重力聚合物微分静电纺丝装置及方法. 2015106512169[P]. 2017.04.26. (Ranked.3)

[16] 杨卫民,程祥,焦志伟,谭晶,阎华,谢鹏程,李好义,丁玉梅. 一种纳米层叠复合材料模外成型装置. 2015106648506[P]. 2017.04.26. (Ranked.7)

[17] 杨卫民,吴昌政,谭晶,李好义,焦志伟,谢鹏程,阎华,谢同维,丁玉梅. 一种气流辅助熔体微分离心纺丝装置及方法. 2015100973369[P]. 2017.03.22. (Ranked.4)

[18] 丁玉梅,何万林,谭晶,李好义,陈宏波,杨卫民. 一种高速水流辅助加捻的熔体微分电纺装置. 2015103855631[P]. 2017.03.08. (Ranked.4)

[19] 杨卫民,陈宏波,谭晶,李好义,阎华,丁玉梅. 一种制备双组份复合材料纳米纤维的静电纺丝装置. 2015100762781[P]. 2017.02.01. (Ranked.4)

[20] 张莉彦,刘晓凤,李小虎,李好义,谭晶,阎华,谢鹏程,焦志伟,丁玉梅,杨卫民. 一种复杂器官可控成型静电纺丝装置. 2015102899897[P]. 2017.01.25. (Ranked.4)

[21] 杨卫民,张罗,谭晶,李好义,谢鹏程,焦志伟,阎华,丁玉梅. 一种快速制备医用载药无纺布装置及方法. 2015100700520[P]. 2017.01.18. (Ranked.4)