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Lihaoyi
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Fields : Advanced manufacturing technology and equipment for ultrafine fibers
Associate professor Deputy Director of the Department
Department : School of Mechanical and Electrical Engineering
Degree: Doctoral Degree Graduated
DBLPc:

Introduction

Li Haoyi, male, Han nationality, born in June 1987 in Lanzhou, Gansu Province, members of the Communist Party of China, associate professor of beijing university of chemical technology Institute of Mechanical and Electrical Engineering, deputy director of the Department of Mechanical Engineering, member of the Young Editorial Board of Textile Journal, member of China Textile Engineering Society and China Micron and Nanotechnology Society, and expert member of China Plastics Processing Association. In recent years, he has presided over and participated in 20 national natural science foundations, national key R&D plans and key projects of Sinopec, authorized more than 100 invention patents, published more than 150 papers in Chinese and English, and published the monograph Electrospinning of Nanofibers. His achievements won the second prize of national technological invention in 2023, the first prize of technological invention of China National Light Industry Federation in 2018 and the second prize of scientific and technological progress of China Textile Industry Federation in 2022. 

Focusing on the advanced manufacturing field of polymer micro/nano-fibers, the preparation principle, method and equipment of polymer melt differential electrospinning nano-fibers were put forward and developed, and their industrial application was realized, forming the key technology and industrial characteristics of green and efficient manufacturing of polymer melt differential electrospinning nano-fibers. The research results have been applied in important fields facing people's lives and health, such as haze prevention and epidemic prevention, underground protection, biomedicine and so on. When the epidemic broke out in Covid-19, the developed biodegradable nanofiber high-efficiency filter mask provided important health protection for frontline anti-epidemic personnel such as hospitals, sanitation and security guards. In 2020, the team won the beijing university of chemical technology President Award (Science and Technology Anti-epidemic Team). Recently, it has opened up a new cross direction of transdermal drug delivery of polymer melt electrospun drug-loaded fibers, and realized the licensing of many patented technologies.

Educational History

Time of Enrollment

Graduation Time

Degree Awarding Unit

Educational Background

2009-08-31

2014-12-31

Beijing University of Chemical Technology

Doctoral Degree Graduated

2005-09-01

2009-06-28

Beijing University of Chemical Technology

Undergraduate Graduate

Work Experience

Start Date

End Date

Employer Name

2017-07-01

To Date

Beijing University of Chemical Technology

2015-03-01

2017-07-14

Beijing University of Chemical Technology

Social Position

Currently an expert of the Expert Committee of the China Plastics Association

Member of the Society of Plastic Engineers (SPE)

Member of the Chinese Micron and Nano Society

Member of Beijing Energy and Environment Society

Youth editorial board member of Journal of Textile Science



Education

Work Experience

Social Position

Social Activities

Research

Polymer melt electrospinning process and equipment

Micro nano filtration materials and devices

Centrifugal spinning technology and equipment

3D printing tissue engineering scaffold preparation technology

Preparation technology of transdermal drug delivery sustained-release patch


Teaching

Fundamentals of Creo 3D Design Software Application

Engineering Graphics

Engineering drawing


Postgraduates

Funding

Government Sponsored Research

1. Research on basic problems of some key materials in vaccine industry chain, supported by the National Natural Science Foundation of China, with the project duration from January 1, 2023 to December 31, 2026.

2. Demonstration of green epidemic prevention materials with high safety and active protection and industrial application, national key research and development plan, project time: November 22, 2022 to October 31, 2025.

3. Key technologies and industrialization of reusable protective masks, national key research and development plan, project time: February 1, 2020 to June 30, 2020.

4. BHJG2020038, Other research projects, project time: August 30th, 2019 to December 1st, 2021.

5. The electrospinning method and mechanism of polymer melt secondary segmentation, supported by the National Natural Science Foundation of China, with the project duration from January 1, 2017 to December 31, 2019.

6. Study on the mechanism of electric field force and jet formation in melt electrospinning, supported by the National Natural Science Foundation of China, with the project duration from January 1, 2017 to December 31, 2019.

7. Preparation technology of melt differential electrospinning nanofiber, a national key research and development plan, with the project time from July 1, 2016 to June 30, 2020.

Collaborative Project

1. The development of airflow shear differential pulverization technology of high density polyethylene is not based on the research results of the project. The project time is from May 1, 2024 to April 30, 2025.

2. The processing of cell culture consumables based on the definition of curved surface is not supported by the research results of the project. The project time is from April 23rd, 2024 to December 31st, 2025.

3. The research and development of coal mine underground protective mask based on melt electrostatic spinning filter membrane is not based on the research results of the project, and the project time is from October 10, 2023 to October 10, 2025.

4. The processing license of a melt electrostatic spinning device does not depend on the research results of the project. The project time is from September 1, 2023 to August 31, 2026.

5. Basic research of special medical breathable film materials, other research projects, project time: January 1, 2023 to December 31, 2024.

6. Design and evaluation of progesterone nanofiber transdermal patch, a scientific and technological project of provinces, municipalities and autonomous regions, with the project duration from January 1, 2023 to December 31, 2025.

7. The patent license of an airflow-assisted external conical electrospinning nozzle is not based on the research results of the project, and the project time is from October 10, 2022 to October 10, 2025.

8. Research and development contract of polymer differential electrostatic spraying high-strength medical breathable film, which is a scientific and technological project entrusted by enterprises and institutions. The project time is from July 30, 2022 to December 31, 2023.

9. Development and industrialization of polymer melt differential electrostatic spinning fiber high-efficiency transdermal drug preparation, national key research and development plan, project time: March 28, 2022 to March 27, 2032.

10. Development and application of melt differential electrospinning degradable nanofiber membrane, which is a scientific and technological project entrusted by enterprises and institutions. The project time is from January 1, 2022 to December 31, 2024.

11. Study on preparation technology of melt differential electrospinning TPU waterproof and moisture permeable film, other research projects, project time: June 1, 2021 to June 1, 2022.


Vertical Project

Horizontal Project

Publications

Papers:

1.    Yuhang WangJing TanJinlong XuJing YanMahmoud M BubakirJingjing LiuXiaohui WangWeimin KangDongming MaHaoyi LiWeimin Yang

Green and highly efficient preparation of micro-nanofiber yarns via vortex airflow-assisted melt differential electrospinning[J]Composites Part A: Applied Science and Manufacturing, 2024

2.    Yuhang WangJing TanJinlong XuHaoyi LiWeimin Yang

The preparation of polypropylene microfiber yarns via vortex airflow‐assisted melt differential electrospinning [J]Journal of Applied Polymer Science, 2024

3.    Yuhang WangHongyan FuJing TanMahmoud M. BubakirXiaodong XuHaoyi LiWeimin Yang

Green and safe preparation of antibacterial sutures composed of PLA ultrafine fibers [J]Polymer Engineering and Science, 2024

4.    Xi DingYuhang WangYiming WangXudong LiMahmoud M. BubakirJixing GaoFeifei LiNing PangWeimin YangRongsheng ZhaoHaoyi Li

The preparation of melt electrospun fiber containing tandospirone for drug sustained release [J]Polymer Engineering and Science, 2024

5.    谭晶,郑娆,李好义,石鑫,安瑛

嵌入图以致用理念的工程制图教学改革[J],化工高等教育,2024

6.    郭佩文,薛爽,杨涵舒,郭文婷,郑晓保,梁鑫,李好义,杨卫民,王平,康晶,郄龙飞,王瑞雪

纳米银负载的聚丙烯纤维膜制备及其对化生污染物防护性能研究[J],防化研究,2024

7.    刘文龙,李好义,何东洋,李长金,张杨,马秀清,李满意,杨卫民

低密度聚乙烯熔喷工艺及其非织造布性能[J],纺织学报,2024

8.    王宇航,杨卫民,李好义,谭晶

熔体静电纺丝纤维细化技术研究进展[J],高分子材料科学与工程,2024

9.    谭晶,付宏岩,杜长彪,兰天杰,李好义,杨卫民

熔体微分电纺PLA/PAAS纳米纤维空气滤膜的制备及高湿环境下的过滤性能[J],中国塑料,2024

10.刘文龙,马秀清,李长金,何东洋,高觊兴,张杨,李满意,杨卫民,李好义

LDPE/PEW熔喷超细纤维及其非织造布性能[J],化工进展,2024

11.何红,于洪杰,李好义,王建

12.面向工程创新人才培养的研究生课程数字化教学改革——以高聚物加工流变学课程为例[J],化工高等教育,2024

13.谭晶,付宏岩,王宇航,王智,李好义,徐锦龙

可吸收载药手术缝合线制备技术研究进展[J],合成纤维,2024

14.高觊兴,丁玉梅,张超,谭晶,丁熙,李好义,杨卫民

熔体微分电纺PLA/PCL微纳米纤维膜的制备及其性能[J],化工进展,2024

15.万凯,杨卫民,丁奇胜,殷荣政,李好义,谭晶

激光辐照碳纤维石墨化均匀性及力学性能分析[J]化工进展,2024

16.谭晶,王智,王朔,付宏岩,李长金,李好义,杨卫民,张杨

树枝状聚合物对聚乳酸熔体微分电纺纤维膜的增韧改性研究[J],中国塑料,2024

17.李好义,贾紫初,刘宇亮,谭晶,丁玉梅,杨卫民,牟文英
高压静电加载形式对聚合物熔体静电直写制备效果的影响[J],纺织学报,2023

18.孔祥号,李好义,杨卫民,Li, Sisi,Yang, Dezheng,Ning, Wenjun,王瑞雪
 Atmospheric pressure plasma jet impinging on fiber arrays: Penetration pattern determined by fiber spacing[J]Applied Physics Letters2023

19.何雪涛,张毅,莫振宇,李长金,王朔,杨卫民,李好义
熔体微分静电纺PBAT纤维膜的制备工艺研究[J],中国塑料,2022

20.张莉彦,侯钦正,徐锦龙,王智,谭晶,杨卫民,李好义
熔体微分静电纺热塑性聚氨酯防水透湿透气超细纤维膜的制备及其性能研究[J],毛纺科技,2022

21.张莉彦,侯钦正,李好义,刘宇亮,杨卫民,xuhao,li xibiao
  Investigation on the sound absorption performance of polypropylene/polyethylene glycol ultrafine fibers by melt differential electrospinning process[J]Applied Acoustics2022

22.张翔,伍先安,李长金,杜长彪,李好义,焦志伟,杨卫民,张杨
基于微纳层叠技术的聚合物纳米纤维制备及应用研究进展[J],中国塑料,2022

23.张毅,Mu, Wenying,Zhang, Yanping,何雪涛,Wang, Yiming,Ma, Hongyu,朱天阳,李骜原,侯钦正,杨卫民,丁玉梅,Ramakrishna, Seeram,李好义
 Recent Advances in Cardiac Patches: Materials, Preparations, and Properties[J]ACS Biomaterials Science and Engineering2022

24.孔祥号,薛爽,李好义,杨卫民,Martynovich, E.F.,Ning, Wenjun,王瑞雪
 Simulation study on an atmospheric pressure plasma jet interacting with a single fiber: effects of the fiber’s permittivity[J]Plasma Sources Science and Technology2022

25.周惠林,李好义,杨卫民
吸湿透气纤维材料的制备原理及其应用[J],化工新型材料,2022

26.陈明军,李好义,杨卫民
聚合物熔体微分静电纺电场对射流的影响及其物理模型[J],纺织学报,2022

27.戴雄飞,张莉彦,陈晓青,杨卫民,李好义,王军
直线狭缝熔体微分电纺高效制备PP超细纤维[J],塑料,2022

28.安瑛,刘宇亮,谭晶,杨卫民,阎华,李好义
聚合物离心静电纺丝技术研究进展[J],中国塑料,2022

29.张超,Chen, Mingjun,李好义,杨卫民,谭晶
 The Critical Roles of the Gas Flow in Fabricating Polymer Nanofibers: A Mini-review[J]ADVANCED FIBER MATERIALS2021

30.安瑛,刘宇亮,李好义
离心静电纺丝装置电场模拟分析[C],第十七届中国CAE工程分析技术年会论文集,2021

31.张莉彦,莫振宇,李相男,李好义,王静东,潘玉龙,杨卫民
仿生无动力液体输送机理及结构研究进展[J],中国表面工程,2021

32.Wang Yuanjie,Pei Xueliang,李好义,Xu Xin,He Liu,Huang Zhengren,Huang Qing
  Crosslinking of Active Polycarbosilane Initiated by Free Radical and Its Application in the Preparation of SiC Fibers[J]JOURNAL OF INORGANIC MATERIALS2021

33.Ali, Imdad,Laitf, Abdul,Hussain, Khalid,Shehzad, Farooq Khurum,Ali, Ahmed,Faisal, Rehman,李旭东,Dias, Otavio Augusto Titton,杨卫民,李好义
 Ionic liquids enhanced performance of PVC gels actuator[J]JOURNAL OF APPLIED POLYMER SCIENCE2021

34.王瑞雪,叶巴丁,孔祥号,夏章川,张子鹏,李好义,谢鹏程
 Research Progress of Low Temperature Plasma Surface Strengthening Technology[J]Jixie Gongcheng Xuebao/Journal of Mechanical Engineering2021

35.李好义,张子鹏,谢超,杨卫民,丁玉梅,王瑞雪
聚偏氟乙烯电纺纳米纤维电池隔膜研究进展[J],化工新型材料,2021

36.李习标,关昌峰,阎华,李好义,石美浓,杨卫民,左夏华
碳基材料光热水蒸发研究进展[J],化工新型材料,2021

37.李相男,李好义,Wang, Yue,Kang, Ning,陈明军,陈晓青,张有忱,阎华,谭晶,杨卫民
微纳米纤维空气净化滤膜的研究进展[J]Gaofenzi Cailiao Kexue Yu Gongcheng/Polymeric Materials Science and Engineering2021

38.陈晓青,张有忱,Liang, Jiahao,李好义,陈明军,程礼盛,何雪涛,杨卫民
 String electrospinning based on the standing wave vibration[J]JOURNAL OF MATERIALS SCIENCE2021

39.Ali, Imdad,Ali, Ahsan,Ali, Ahmed,Ramzan, Muhammad,Hussain, Khalid,李旭东,詹瑾,Titton Dias, Otavio Augusto,杨卫民,李好义,张莉彦,Sain, Mohini
  Highly electro-responsive composite gel based on functionally tuned graphene filled polyvinyl chloride[J]POLYMERS FOR ADVANCED TECHNOLOGIES2021

40.张子鹏,杨卫民,王晓辉,陈琪琪,RADAR,李好义

毛细管熔体静电纺丝法制备热塑性聚氨酯纤维[期刊论文],塑料,2021

41.安瑛,王军,李好义,陈明军,戴雄飞,杨卫民,阎华

中空电极板对狭缝式聚合物熔体微分电纺的影响[期刊论文],工程塑料应用,2021

42.马昊鹏,Zhang, Yixuan,焦志伟,杨卫民,何雪涛,Xie, Guanghui,李好义

Comprehensive Assessment of the Environmental Impact of Fused Filament Fabrication Products Produced Under Various Performance Requirements[期刊论文]Journal of The Institution of Engineers (India): Series C2021

43.詹瑾,马晶晶,高达利,李好义,杨卫民口罩聚丙烯熔喷纤维与聚丙烯熔喷原料的塑化及结晶行为对比研究[期刊论文],中国塑料,2021

44.余韶阳,李碧波,王靖,王兰,赵通来,杨卫民,李好义
熔体微分电纺制备超支化PPS超细纤维[J],工程塑料应用,2020

45.李好义,陈琪琪,刘宇健,李相男,陈晓青,Yang, Tao,杨卫民
 Progress in Preparation Technology and Application of High Temperature Resistant Polymer Micro/Nano Fibers[J]Gaofenzi Cailiao Kexue Yu Gongcheng/Polymeric Materials Science and Engineering2020

46.李好义,许浩,陈明军,Yang, Tao,陈晓青,阎华,杨卫民
 Research progress of noise reduction by nanofibers[J]Fangzhi Xuebao/Journal of Textile Research2020

47.Qiqi Chen,Yujian Liu,Hangjun Deng,Tingting Lyu,谭晶,杨卫民,李好义,Seeram Ramakrishna
  Melt differential electrospinning of polyphenylene sulfide nanofibers for flue gas filtration[J]polymer engineering and science2020

48.Chen, Xiaoqing,Ali, Imdad,Song, Lijian,Song, Peng,张有忱,Maria, Semeniuk,Nazmus, Saadat,杨卫民,Dhakal, Hom Nath,李好义,Sain, Mohini,Ramakrishna, Seeram
  A review on recent advancement of nano-structured-fiber-based metal-air batteries and future perspective[J]Renewable and Sustainable Energy Reviews2020

49.Ma, Haopeng,Gao, Qiyao,王修磊,李好义,杨卫民,焦志伟
 The mechanism of the controlled deposition of electrospun fibers[J]POLYMER ENGINEERING AND SCIENCE2020

50.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

51.Chen, Mingjun,张有忱,Chen, Xiaoqing,杨卫民,李好义,Yousefzadeh, Maryam,Ramakrishna, Seeram
  Polymer melt differential electrospinning from a linear slot spinneret[J]JOURNAL OF APPLIED POLYMER SCIENCE2020

52.Li, Xibiao,关昌峰,Gao, Xiaodong,Zuo, Xiahua,杨卫民,阎华,石美浓,李好义,Sain, Mohini
  High Efficiency Solar Membranes Structurally Designed with 3D Core-2D Shell SiO2@Amino-Carbon Hybrid Advanced Composite for Facile Steam Generation[J]ACS APPLIED MATERIALS & INTERFACES2020

53.姚子琪,张有忱,李好义,焦志伟,雷文龙
聚合物熔体电纺PCL-软骨复合支架的制备及性能表征[J],化工新型材料,2020

54.马昊鹏,邓暄,李好义,焦志伟,杨卫民
基于电化学沉积法的金属3D打印工艺初探[J],有色金属工程,2020

55.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,材料工程,2020

56.谢超,邢健,陈明军,杨卫民,李好义

静电纺丝纳米纤维膜分离油水乳液的研究进展,化工新型材料,2020

57.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,高分子材料科学与工程,2020

58.Du, Lin,张有忱,Li, Xiangnan,王军,Chen, Mingjun,Zuo, Xiahua,杨卫民,Yousefzadeh, Maryam,Ramakrishana, Seeram,李好义

High performance anti-smog window screens via electrospun nanofibersJOURNAL OF APPLIED POLYMER SCIENCE2020

59.王紫行,伍先安,陈明军,杜琳,李好义,杨卫民

聚合物熔体静电纺纳米纤维技术研究进展[期刊论文],化工新型材料,2020

60.Ali, Imdad,杨卫民,Li, Xudong,Ali, Ahsan,焦志伟,谢鹏程,Dias, Otavio Augusto Titton,Pervaiz, Muhammad,李好义,Sain, Mohini

Highly electro-responsive plasticized PVC/FMWCNTs soft composites: A novel flex actuator with functional characteristicsEUROPEAN POLYMER JOURNAL2020

61.Liu, Yujian,谭晶,Chen, Mingjun,Yu, Shaoyang,李好义,杨卫民

Research progress of electrospun nanofiber yarnsFangzhi Xuebao/Journal of Textile Research2020

62.王紫行,伍先安,李好义,王晓辉,谢超,陈明军,杨卫民

直线式双组分熔体微分电纺“月牙状”聚丙烯纤维制备,北京化工大学学报(自然科学版)2020

63.Liu, Yu-Jian,谭晶,Yu, Shao-Yang,Yousefzadeh, Maryann,Lyu, Ting-ting,焦志伟,李好义,Ramakrishna, Seeram

High-efficiency preparation of polypropylene nanofiber by melt differential centrifugal electrospinningJOURNAL OF APPLIED POLYMER SCIENCE2020

64.Ding, Qin,Guan, Changfeng,李好义,石美浓,杨卫民,阎华,Zuo, Xiahua,安瑛,Ramakrishna, Seeram,Mohankumar, Palanisamy,张锋华

Solar-driven interfacial evaporation based on double-layer polylactic acid fibrous membranes loading Chinese ink nanoparticlesSOLAR ENERGY2020

65.Wang, Yuanjie,Pei, Xueliang,李好义,Xu, Xin,He, Liu,Huang, Zhengren,Huang, Qing

Preparation of SiC ceramic fiber from a photosensitive polycarbosilaneCeramics International2020

66.Lü, Tingting,安瑛,李好义,Liu, Yujian,焦志伟
 Research progress of electrospun animal protein nanofibers[J]Fangzhi Xuebao/Journal of Textile Research2019

67.杜琳,李好义,王紫行,王循,杨卫民,张有忱
熔体微分电纺PLA/ATBC空气滤膜的制备及性能[J],化工新型材料,2019

68.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

69.曹如楼,杨卫民,王循,李好义,左夏华,陈明军
熔体微分电纺PLA/ATBC纤维膜及其水过滤性能[J],上海纺织科技,2019

70.Ali, Imdad,Li Xudong,Chen Xiaoqing,焦志伟,Pervaiz, Mohammad,杨卫民,李好义,Sain, Mohini
  A review of electro-stimulated gels and their applications: Present state and future perspectives[J]MATERIALS SCIENCE & ENGINEERING C-MATERIALS FOR BIOLOGICAL APPLICATIONS2019

71.王晓辉,丁玉梅,郎增科,雷达,李好义,焦志伟
静电纺丝聚氨酯纤维及在生物医药领域的研究进展[J],聚氨酯工业,2019

72.Yao, Ziqi,马东明,Lei, Wenlong,焦志伟,李好义,Xu, Xiaodong,张有忱
 Progress in melt electrospinning direct writing technology in tissue engineering[J]Huagong Jinzhan/Chemical Industry and Engineering Progress2019

73.Chen, Hongbo,Wang, Chuansheng,Ali, Imdad,李好义,Chen, Xiaoqing,杨卫民,Han, Wenwen,Liu, Haichao,Jiao, Dongmei,Yin, Fengfu
  Uniform Distribution and Densification of Jets in Needleless Electrospinning Using Annular Tip Nozzle[J]POLYMERS2019

74.Wang, Xun,丁玉梅,Yu, Shao-Yang,Du, Lin,杨卫民,李好义,Chen, Ming-Jun
  Preparation and pollution treatment of degradable PLA/OMMT nanofiber membrane by melt differential electrospinning[J]Cailiao Gongcheng/Journal of Materials Engineering2019

75.Lei, Wenlong,张莉彦,Li, Yi,杨卫民,李好义,Chen, Mingjun
  Morphology and accuracy of polycaprolactone (PCL) scaffolds prepared by electrospinning direct writing[J]Huagong Jinzhan/Chemical Industry and Engineering Progress2019

76.高晓东,李好义,陈明军,Wang Dexi
激光加工技术在塑料成型加工中的应用研究进展[J],橡塑技术与装备,2019

Software Works

Author type

Author's name

Title of works

Publication Date

Publishing House

Rank/total number of people

teacher

LIHAOYI

Functionalized Nanofibers

2023-03-16 00:00:00

ScienceDirect

2

teacher

LIHAOYI

Handbook of Nanofibers

2019-04-01 00:00:00

斯普林格出版社(Springer)

1

teacher

LIHAOYI

Electrospinning:Nanofabrication and Applications

2019-01-01 00:00:00

Elsevier(爱思唯尔)

1

teacher

LIHAOYI

纳米纤维静电纺丝

2018-04-01 00:00:00

化学工业出版社

2

teacher

LIHAOYI

Non-Woven Fabric

2016-06-01 00:00:00

InTech

3

Patents

1. A natural degradable nanofiber environmental protection mask, ZL 2020 2 0783229.8.

2. Chain hot-pressing molding device for ultra-high molecular weight polyethylene filter element, CN216423205U.

3. A device for preparing bicomponent fibers based on melt differential centrifugal spinning, CN216107346U.

4. A melt differential electrospinning device for continuous direct plasticization of film, CN208829797U.

5. An airflow-assisted melt differential electrostatic spinning device with inverted nozzle, CN115216851A.

6. A transdermal patch for melt electrospinning and its production process, CN114939114B.

7. A water collecting device imitating plant roots, CN110984290B.

8. A linear melt electrospinning device and method with uniform web formation, CN108517572A.

9. A handheld melt electrospinning preparation device and its use method, CN108251897A.

10. An efficient device and method for preparing graded laser carbonizer, CN107761193A.

11. A device for electrospinning direct writing that can eliminate electrostatic influence, CN107541798A.




Awards

1. Green and efficient manufacturing technology and application of polymer melt nanofibers, 2024-06-01 00:00:00, national science and technology award, second prize.

2. Development and application of key technologies for green manufacturing of polymer melt differential electrospun nanofibers, 2019-02-18 00:00:00, social science and technology award, first prize.

3. Key technology and product application of high-performance nanofiber membrane for protection, 2022-12-01 00:00:00, social science and technology award, second prize.

4. R&D and application of key technologies for green manufacturing of polymer melt differential electrospun nanofibers, 2018-11-18 00:00:00, provincial and ministerial science and technology award, third prize.

5. Device and process for mass production of nanofibers by melt electrostatic spinning, social science and technology award, merit award.


Patent

Honor Reward

Admissions Information

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