Polyamide 6 nanofibrous nonwovens via electrospinning

Marsano, Enrico; Francis, Lijo; Giunco, Francesco

doi:10.1002/app.32118

Cited by 48 publications

(38 citation statements)

References 29 publications

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“…This is likely mainly caused by the plasticizing effect of water which causes a 9 slower solidification and thus a longer period of jet thinning and is in agreement with observations in other polymer-solvent systems [46,49]. Yet, another possible cause may be found in a variation of the solution parameters during electrospinning at different RH [50].…”

Section: Study Of the Fibre Morphologysupporting

confidence: 87%

An alternative solvent system for the steady state electrospinning of polycaprolactone

Schueren

Schoenmaker

Kalaoğlu

et al. 2011

European Polymer Journal

244

139

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Polycaprolactone (PCL) is a biocompatible aliphatic polyester with many possible applications in the medical field. PCL nanofibres, produced by electrospinning, could provide new characteristics that are of interest for these applications. However, a key prerequisite is the ability to obtain bead-free fibres with diameters in the nanoscale range. At present the most commonly used solvent for electrospinning PCL is chloroform, but this only leads to fibres in the microscale range. Therefore various solvent systems were examined in this study.The innovative solvent mixture formic acid/acetic acid was found to allow for nanofibres with a diameter ten times smaller than chloroform. Moreover, steady state conditions could be obtained which thus allow electrospinning in a stable and reproducible way. Further it was noticed that the average fibre diameter decreased with decreasing polymer concentration while the diameter distribution decreased with increasing amount of formic acid. Also the humidity, an often overlooked yet important parameter, was noted to affect both diameter 2 characteristics. Generally it can be concluded that the solvent system formic acid/acetic acid could fill the gap in electrospinning PCL since it is readily able to produce uniform fibres in the nanoscale range.

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Section: Study Of the Fibre Morphologysupporting

confidence: 87%

An alternative solvent system for the steady state electrospinning of polycaprolactone

Schueren

Schoenmaker

Kalaoğlu

et al. 2011

European Polymer Journal

244

139

View full text Add to dashboard Cite

show abstract

“…could support a stable electrospinning or electrospraying process [10,11]. During the hybrid process, the positively charged Nylon 6 solution was ejected and underwent a stretching-and-whipping process resulting in the formation of a long, thin thread.…”

Section: Air Permeability and Moisture Vapor Transmission Rate Measurmentioning

confidence: 99%

Multifunctional ZnO/Nylon 6 nanofiber mats by an electrospinning–electrospraying hybrid process for use in protective applications

Vitchuli

Shi

Nowak

et al. 2011

Science and Technology of Advanced Materials

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ZnO/Nylon 6 nanofiber mats were prepared by an electrospinning-electrospraying hybrid process in which ZnO nanoparticles were dispersed on the surface of Nylon 6 nanofibers without becoming completely embedded. The prepared ZnO/Nylon 6 nanofiber mats were evaluated for their abilities to kill bacteria or inhibit their growth and to catalytically detoxify chemicals. Results showed that these ZnO/Nylon 6 nanofiber mats had excellent antibacterial efficiency (99.99%) against both the Gram-negative Escherichia coli and Gram-positive Bacillus cereus bacteria. In addition, they exhibited good detoxifying efficiency (95%) against paraoxon, a simulant of highly toxic chemicals. ZnO/Nylon 6 nanofiber mats were also deposited onto nylon/cotton woven fabrics and the nanofiber mats did not significantly affect the moisture vapor transmission rates and air permeability values of the fabrics. Therefore, ZnO/Nylon 6 nanofiber mats prepared by the electrospinning-electrospraying hybrid process are promising material candidates for protective applications.

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“…As the jet travels in the air, the solvent evaporates and a charged fiber left behind which can be collected on a grounded plate (collector). Electrospinning yields mostly nonwoven fiber mats having large surface to volume ratios and various fiber morphologies and geometries 3 . The main parameterswhich affect and/or control the process of electrospinning and subsequent fiber morphology can beasfollows: solution concentration, polymer molecular weight, viscosity, conductivity, surface tension,appliedvoltage, distance of source electrode fromthe target substrate, electric field, and solution flowrate 4 .…”

Section: Introductionmentioning

confidence: 99%

Templated Roughness on the Surface of Polyamide Nanofibrous Mat by Mesh Electrospinning

Saadatmand¹,

Yazdanshenas²,

Khajavi³

et al. 2017

Orient. J. Chem

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In this study, it was aimed to present a nanofibrous scaffold with intentional roughness through a new electrospinning method called "mesh electrospinning method". Firstly, polyamide nylon 6 granules were dissolved in formic acid in different concentration (10-35 %w/v). A mesh template was placed between tip and collector in different distance (4 positions) in a conventional electrospinning line. The number of mesh layers and effects of processing parameters also considered. As it was expected, the results show that, increasing the polymer solution lead to increase fiber diameter, from 84 nm for 20% to 265 nm for 30%. The results showed that the layer just formed when the mesh was placed just on the collector. On the other hand, with increasing the number of mesh layers (1&3), roughness decreased (55-60%). It was also observed that the produced roughness is governed by the geometry of the mesh. To consider the ability for controlling the roughness, the produced roughness can be applied for drug delivery purposes transdermal drug delivery.

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Polyamide 6 nanofibrous nonwovens via electrospinning

Cited by 48 publications

References 29 publications

An alternative solvent system for the steady state electrospinning of polycaprolactone

An alternative solvent system for the steady state electrospinning of polycaprolactone

Multifunctional ZnO/Nylon 6 nanofiber mats by an electrospinning–electrospraying hybrid process for use in protective applications

Templated Roughness on the Surface of Polyamide Nanofibrous Mat by Mesh Electrospinning

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