Sage Journals: Discover world-class research

Abstract

In this paper, we report on the fabrication and characterization of cellulose/polyacrylonitrile (cellulose/PAN) nanofiber via the electrospinning technique. The effects of voltage and blending ratio on the morphology of the electrospun cellulose/PAN nanofibers are investigated. The electric field distribution of the nanofiber manufacturing system is simulated by using finite element method analysis. The results show that the morphology and diameters of the nanofiber are obviously affected with the change of the electric field and blending ratio. The surface morphology, chemical structural, thermal stability, mechanical property and wettability of the cellulose/PAN nanofibers with different blending ratios are evaluated systematically.

The thermal stability and mechanical property of the cellulose/PAN nanofibers have a certain improvement compared with pure cellulose nanofiber. The wettability of cellulose/PAN nanofibers is better than that of ordinary medical gauze.

Keywords

electrospinning cellulose polyacrylonitrile nanofiber simulation

Get full access to this article

View all access options for this article.

References

Persano

Camposeo

Tekmen

et al.

Industrial upscaling of electrospinning and applications of polymer nanofibers: a review. Macromol Mater Eng 2013; 298: 504–520.

Mirjalili

Zohoori

. Review for application of electrospinning and electrospun nanofibers technology in textile industry. J Nanostruct Chem 2016; 6: 1–7.

Kim

Lee

et al.

Thermally induced phase separation and electrospinning methods for emerging membrane applications: a review. Aiche J 2016; 62: 461–490.

Zhao

Hua

et al.

Cleanable air filter transferring moisture and effectively capturing PM2.5. Small 2017; 1603306: 1–11.

Xiao

Chen

et al.

Functionalization of biodegradable PLA non-woven fabric as superoleophilic and superhydrophobic material for efficient oil absorption and oil/water separation. ACS Appl Mater Interf 2017; 9: 5968–5973.

Ball

Cho

Jiang

et al.

Coaxially electrospun fiber-based microbicides facilitate broadly tunable release of maraviroc. Mater Sci Eng C Mater Biol Appl 2016; 63: 117–124.

Zaiss

Brown

Reichert

et al.

Poly(ɛ-caprolactone) scaffolds fabricated by melt electrospinning for bone tissue engineering. Materials 2016; 9: 232–232.

Viter

Chaaya

Iatsunskyi

et al.

Tuning of ZnO 1D nanostructures by atomic layer deposition and electrospinning for optical gas sensor applications. Nanotechnology 2015; 26: 105501–105501.

Yan

et al.

Patterned, highly stretchable and conductive nanofibrous PANI/PVDF strain sensors based on electrospinning and in situ polymerization. Nanoscale 2016; 8: 2944–2950.

10.

Lee

Seo

Jang

. ZnO quantum dot-decorated carbon nanofibers derived from electrospun ZIF-8/PVA nanofibers for high-performance energy storage electrodes. Chem Commun 2017; 53: 11441–11444.

11.

Nishio

. Polysaccharides II. Advances in Polymer Science, Berlin: Springer, 2006, pp. 97–151.

12.

Kim

Kang

et al.

Structural studies of electrospun cellulose nanofibers. Polymer 2006; 47: 5097–5107.

13.

Tungprapa

Puangparn

Weerasombut

et al.

Electrospun cellulose acetate fibers: effect of solvent system on morphology and fiber diameter. Cellulose 2007; 14: 563–575.

14.

Quan

Kang

Chin

. Characterization of cellulose fibers electrospun using ionic liquid. Cellulose 2010; 17: 223–230.

15.

Cheng

Zhang

et al.

Tissue engineering scaffolds electrospun from cotton cellulose. Carbohydr Polym 2015; 115: 485–493.

16.

Niu

Zhang

et al.

Fabrication and characterization of electrospun cellulose/nano-hydroxyapatite nanofibers for bone tissue engineering. Int J Biol Macromol 2017; 97: 568–573.

17.

Hou

Xue

et al.

Fabrication and morphology study of electrospun cellulose acetate/polyethylenimine nanofiber. Polym Bull 2016; 73: 2889–2906.

18.

Coimbra

Santos

Alves

et al.

Coaxial electrospun PCL/gelatin-MA fibers as scaffolds for vascular tissue engineering. Colloids Surf B Biointerf 2017; 159: 7–15.

19.

Zhao

Zhang

. Application of Ansoft 12 in engineering electromagnetic fields, Beijing: China Water & Power Press, 2010.

20.

Demir

Yilgor

et al.

Electrospinning of polyurethane fibers. Polymer 2002; 43: 3303–3309.

Electrospun natural cellulose/polyacrylonitrile nanofiber: simulation and experimental study

Abstract

Keywords

Get full access to this article

References