JOURNAL OF TEXTILE RESEARCH ›› 2016, Vol. 37 ›› Issue (01): 159-166.

Previous Articles     Next Articles

Research and development of aligned nanofibers prepared by electrospinning

  

  • Received:2014-11-21 Revised:2015-09-07 Online:2016-01-15 Published:2016-01-14

Abstract:

The conventional electrospun non-woven membranes have chaotic microstructure and inferior mechanical properties, which limit their applications. However, aligned nanofibers possess anisotropic morphology, anisotropic wettability, higher mechanical properties, and these advantages endows aligned nanofibers wider range of applications. Hence, many researchers modified conventional collecting apparatus to fabricate aligned nanofibers. In this paper, the methods and collecting equipments including rotating cylinder, parallel plate, auxiliary electrodes and some other apparatus was summarized, and the merits and demerits of these methods were also analyzed and compared, thus providing a reference for the further development of aligned nanofiber and expanding of the application of nanofibers.

Key words: electrospinning, aligned nanofiber, preparation method, auxiliary electrode

[1] . Preparation and characterization of polyvinyl pyrrolidone nanofibrous membranes using funneling air-jet electrospinning [J]. Journal of Textile Research, 2018, 39(10): 7-11.
[2] . Structure and properties of electrospun polyacrylonitrile/graphene carbon nanofibers [J]. Journal of Textile Research, 2018, 39(10): 24-31.
[3] . Preparation and properties of polypropylene air filter membrane by melt differential electrospinning [J]. Journal of Textile Research, 2018, 39(10): 12-17.
[4] . Preparation and properties of orientation reinforced composite separator for lithium-ion battery [J]. JOURNAL OF TEXTILE RESEARCH, 2018, 39(07): 8-14.
[5] . Preparation technology and application progress of solution blown nanofibers [J]. JOURNAL OF TEXTILE RESEARCH, 2018, 39(07): 165-173.
[6] . Preparation and properties of electrospun polyacrylonitrile nanofiber coated window screen [J]. JOURNAL OF TEXTILE RESEARCH, 2018, 39(04): 14-18.
[7] . Overview on mass production of electrospun nanofibers [J]. JOURNAL OF TEXTILE RESEARCH, 2018, 39(03): 175-180.
[8] . Oil absorption property of electrospun superfine fibrous membrane [J]. JOURNAL OF TEXTILE RESEARCH, 2018, 39(02): 7-13.
[9] . Electrospun barium titanate/ poly(vinylidene fluoride) nano-composite flexibility piezoelectric fibrous membranes [J]. JOURNAL OF TEXTILE RESEARCH, 2018, 39(02): 14-19.
[10] . Preparation of crosslinking and high performance polymers [J]. JOURNAL OF TEXTILE RESEARCH, 2018, 39(01): 6-10.
[11] . Effects of coaxial electrospinning parameters on morphology and carbonization yield of polyacrylonitrile hollow carbon nanofibers [J]. JOURNAL OF TEXTILE RESEARCH, 2017, 38(12): 1-6.
[12] . Preparation of ultrafine polyacrylonitrile nanofibers via composite electrospinning [J]. JOURNAL OF TEXTILE RESEARCH, 2017, 38(11): 16-21.
[13] . Research Progress in preparation and application of electrospinning porous carbon nanofibers [J]. JOURNAL OF TEXTILE RESEARCH, 2017, 38(11): 168-176.
[14] . Synthesis of fluorinated polyurethane and acid-proofness and water permeability of electrospun nanofiber membrane composite fabrics [J]. JOURNAL OF TEXTILE RESEARCH, 2017, 38(10): 7-12.
[15] . In fluence of hydrogen bonding on electrospinning of starch nanofiber in dimethyl sulfoxide/H2O solution [J]. JOURNAL OF TEXTILE RESEARCH, 2017, 38(09): 19-23.
Viewed
Full text


Abstract

Cited

  Shared   
  Discussed   
[1] . [J]. JOURNAL OF TEXTILE RESEARCH, 1981, 2(05): 23 -26 .
[2] LIU Cheng-xia. Objective evaluation of pilling property of knitted fabrics[J]. JOURNAL OF TEXTILE RESEARCH, 2006, 27(12): 92 -95 .
[3] . [J]. JOURNAL OF TEXTILE RESEARCH, 1981, 2(05): 22 .
[4] . [J]. JOURNAL OF TEXTILE RESEARCH, 2003, 24(05): 17 -19 .
[5] . [J]. JOURNAL OF TEXTILE RESEARCH, 2001, 22(05): 9 .
[6] . [J]. JOURNAL OF TEXTILE RESEARCH, 1990, 11(05): 34 -37 .
[7] CHEN Dianhong;LI Haiming;XU Xinsheng. Dyeing recipes prediction optimization for yarn color matching based on conjugate gradient method[J]. JOURNAL OF TEXTILE RESEARCH, 2011, 32(3): 82 -85 .
[8] . [J]. JOURNAL OF TEXTILE RESEARCH, 2001, 22(04): 52 -53 .
[9] . [J]. JOURNAL OF TEXTILE RESEARCH, 2001, 22(05): 49 -50 .
[10] . [J]. JOURNAL OF TEXTILE RESEARCH, 1979, 0(01): 74 -79 .