Functional sol-gel coated electrospun polyamide 6,6/ZnO composite nanofibers
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Ayse Celik Bedeloglu
und
Zeynep Islek Cin
Abstract
Polymer-based nanofibers are good candidates for medical textiles due to their excellent properties including high surface area, breathability and flexibility. Doping polymer nanofibers with different nanoparticles enhances their existing properties. In this study, electrospun polyamide 6,6 (PA6,6) composite nanofibers containing ZnO nanoparticles (<50 nm) in different amounts (1%, 3% and 5%) were first produced by electrospinning technique; then, these nanofibers were coated with sol-gel ZnO solution (0.5 m) via dip coating method at 1000, 3000 and 5000 μm/s speeds. The sol-gel coating process increased the breaking strength of nanofiber mats, while the incorporation of ZnO nanoparticles into the polymer nanofibers reduced. Compared to pure PA6,6 nanofiber mats, the ZnO sol-gel coated samples and doped nanofibers had lower reflectance values. In addition, the reflection values decreased as the additive and coating speed increased.
Acknowledgments
Authors acknowledge Ayse Sezer Hicyilmaz for her help.
References
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©2019 Walter de Gruyter GmbH, Berlin/Boston
Artikel in diesem Heft
- Frontmatter
- Material properties
- Chitosan as an emerging object for biological and biomedical applications
- Investigation of the properties of polystyrene-based wood plastic composites: effects of the flame retardant loading and magnetic fields
- An attempt to correlate the physical properties of fossil and subfossil resins with their age and geographic location
- Effect of heat treatment on the thermophysical properties of copper-powder-filled polycarbonate and polycarbonate containing paraffin
- Preparation and assembly
- Preparation of hydrophilic reactive polyurethane and its application of anti-water erodibility in ecological restoration
- Antimicrobial gelatin/sericin/clay films for packaging of hygiene products
- Functional sol-gel coated electrospun polyamide 6,6/ZnO composite nanofibers
- Influence of the incorporation of different chemically functionalized carbon nanotubes in polyurethane resin applied on aluminum
- Engineering and processing
- Influence of shrinkage of polymer on the stationarity of propagation of frontal polymerization heat waves
- Influence of titanium oxide-based colourants on the morphological and tribomechanical properties of injection-moulded polyoxymethylene spur gears
Artikel in diesem Heft
- Frontmatter
- Material properties
- Chitosan as an emerging object for biological and biomedical applications
- Investigation of the properties of polystyrene-based wood plastic composites: effects of the flame retardant loading and magnetic fields
- An attempt to correlate the physical properties of fossil and subfossil resins with their age and geographic location
- Effect of heat treatment on the thermophysical properties of copper-powder-filled polycarbonate and polycarbonate containing paraffin
- Preparation and assembly
- Preparation of hydrophilic reactive polyurethane and its application of anti-water erodibility in ecological restoration
- Antimicrobial gelatin/sericin/clay films for packaging of hygiene products
- Functional sol-gel coated electrospun polyamide 6,6/ZnO composite nanofibers
- Influence of the incorporation of different chemically functionalized carbon nanotubes in polyurethane resin applied on aluminum
- Engineering and processing
- Influence of shrinkage of polymer on the stationarity of propagation of frontal polymerization heat waves
- Influence of titanium oxide-based colourants on the morphological and tribomechanical properties of injection-moulded polyoxymethylene spur gears
