Stabilization of polyacrylonitrile nanofiber mats obtained by needleless electrospinning using dimethyl sulfoxide as solvent
L. Sabantina, M. Klöcker, M. Wortmann, J.R. Mirasol, T. Cordero, E. Moritzer, K. Finsterbusch, A. Ehrmann, Journal of Industrial Textiles 50 (2020) 224–239.
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Artikel
| Veröffentlicht
| Englisch
Autor*in
Sabantina, Lilia;
Klöcker, Michaela;
Wortmann, Martin;
Mirasol, José Rodríguez;
Cordero, Tomás;
Moritzer, Elmar;
Finsterbusch, Karin;
Ehrmann, Andrea
Abstract
Polyacrylonitrile can be used as a base material for thermochemical conversion into carbon. Especially nanofiber mats, produced by electrospinning, are of interest to create carbon nanofibers. Optimal stabilization and carbonization parameters, however, strongly depend on the spatial features of the original material. While differences between nano- and microfibers are well known, this paper shows that depending on the electrospinning method and the solvent used, considerable differences between various nanofiber mats have to be taken into account for the optimization of the stabilization conditions. Here, we examine for the first time polyacrylonitrile nanofiber mats, electrospun with wire electrospinning from the low-toxic dimethyl sulfoxide as a solvent, instead of the typically used needle electrospinning from the toxic dimethylformamide. Additionally, we used inexpensive polyacrylonitrile from knitting yarn instead of highly specialized material, tailored for carbonization. Our results show that by carefully controlling the maximum stabilization temperature and especially the heating rate, fully stabilized polyacrylonitrile fibers without undesired interconnections can be created as precursors for carbonization.
Erscheinungsjahr
Zeitschriftentitel
Journal of Industrial Textiles
Band
50
Zeitschriftennummer
2
Seite
224-239
ISSN
eISSN
FH-PUB-ID
Zitieren
Sabantina, Lilia ; Klöcker, Michaela ; Wortmann, Martin ; Mirasol, José Rodríguez ; Cordero, Tomás ; Moritzer, Elmar ; Finsterbusch, Karin ; Ehrmann, Andrea: Stabilization of polyacrylonitrile nanofiber mats obtained by needleless electrospinning using dimethyl sulfoxide as solvent. In: Journal of Industrial Textiles Bd. 50, SAGE Publications (2020), Nr. 2, S. 224–239
Sabantina L, Klöcker M, Wortmann M, et al. Stabilization of polyacrylonitrile nanofiber mats obtained by needleless electrospinning using dimethyl sulfoxide as solvent. Journal of Industrial Textiles. 2020;50(2):224-239. doi:10.1177/1528083718825315
Sabantina, L., Klöcker, M., Wortmann, M., Mirasol, J. R., Cordero, T., Moritzer, E., … Ehrmann, A. (2020). Stabilization of polyacrylonitrile nanofiber mats obtained by needleless electrospinning using dimethyl sulfoxide as solvent. Journal of Industrial Textiles, 50(2), 224–239. https://doi.org/10.1177/1528083718825315
@article{Sabantina_Klöcker_Wortmann_Mirasol_Cordero_Moritzer_Finsterbusch_Ehrmann_2020, title={Stabilization of polyacrylonitrile nanofiber mats obtained by needleless electrospinning using dimethyl sulfoxide as solvent}, volume={50}, DOI={10.1177/1528083718825315}, number={2}, journal={Journal of Industrial Textiles}, publisher={SAGE Publications}, author={Sabantina, Lilia and Klöcker, Michaela and Wortmann, Martin and Mirasol, José Rodríguez and Cordero, Tomás and Moritzer, Elmar and Finsterbusch, Karin and Ehrmann, Andrea}, year={2020}, pages={224–239} }
Sabantina, Lilia, Michaela Klöcker, Martin Wortmann, José Rodríguez Mirasol, Tomás Cordero, Elmar Moritzer, Karin Finsterbusch, and Andrea Ehrmann. “Stabilization of Polyacrylonitrile Nanofiber Mats Obtained by Needleless Electrospinning Using Dimethyl Sulfoxide as Solvent.” Journal of Industrial Textiles 50, no. 2 (2020): 224–39. https://doi.org/10.1177/1528083718825315.
L. Sabantina et al., “Stabilization of polyacrylonitrile nanofiber mats obtained by needleless electrospinning using dimethyl sulfoxide as solvent,” Journal of Industrial Textiles, vol. 50, no. 2, pp. 224–239, 2020.
Sabantina, Lilia, et al. “Stabilization of Polyacrylonitrile Nanofiber Mats Obtained by Needleless Electrospinning Using Dimethyl Sulfoxide as Solvent.” Journal of Industrial Textiles, vol. 50, no. 2, SAGE Publications, 2020, pp. 224–39, doi:10.1177/1528083718825315.