Development and characterization of electrospun cellulose acetate nanofibers modified by cationic surfactant

Polymeric electrospun nanofibers have been gaining notoriety in the same way as their industrial applications, since the manufacturing of this type of material is simple and low-costed. In order to obtain fibrous polymeric material with small diameters and with reduced beads formation, a 24 factoria...

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Veröffentlicht in:Polymer testing 2020-01, Vol.81, p.106206, Article 106206
Hauptverfasser: de Almeida, Daniela S., Duarte, Eduardo H., Hashimoto, Elizabeth M., Turbiani, Franciele R.B., Muniz, Edvani C., de Souza, Paulo Ricardo, Gimenes, Marcelino L., Martins, Leila D.
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Sprache:eng
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Zusammenfassung:Polymeric electrospun nanofibers have been gaining notoriety in the same way as their industrial applications, since the manufacturing of this type of material is simple and low-costed. In order to obtain fibrous polymeric material with small diameters and with reduced beads formation, a 24 factorial experiment with triplicate at center point was performed. Cellulose acetate (CA) and cationic cetylpyridinium bromide (CPB) surfactant nanofibers were made using a homemade electrospinning apparatus. The assessed inputs were as follows: CA%, CPB%, flow rate, and applied voltage. From the analysis of the response surface methodology and scanning electron microscope (SEM), the optimal concentrations of CA and CPB for producing nanofibers were 21 w/v-% and 0.5 w/v-%, respectively, using a flow rate of 0.7 mL h−1 and applied voltage of 18 kV. Fibers mats morphology shows average diameter of 0.2 μm and 7 nm pore size, as well as it was found that the single fiber unit presented nanoheterogeneity. Mechanical resistance of 2.70 MPa was obtained in the tensile strength test. The modification of CA by the addition of surfactant attributed better thermal and mechanical resistances to the nanofibers without, however, affecting their biodegradability and water resistance properties. The morphological characteristics of the newly obtained CA/CPB nanofibers combined with mechanical resistance provided subsidies to suggest that the as-obtained material presents potential to be applied as an air filter. •The electrospun nanofibers with 21% CA and 0.5% CPB (w/v) are bead-free.•The CPB addiction in CA solution was made based in a factorial experiment.•The average diameters of the nanofibers ranged from 0.2 to 0.3 μm.•The surfactant presence on CA nanofibers improve thermal and mechanical characteristics.•This CA/CPB nanofiber could be applied as an air filter.
ISSN:0142-9418
1873-2348
DOI:10.1016/j.polymertesting.2019.106206