Fabrication of superhydrophobic fiber coatings by DC-biased AC-electrospinning

Mesh‐like fiber mats of polystyrene (PS) were deposited using DC‐biased AC‐electrospinning. Superhydrophobic surfaces with water contact angles greater than 150° and gas fraction values of up to 97% were obtained. Rheological study was conducted on these fiber surfaces and showed a decrease in shear...

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Veröffentlicht in:	Journal of applied polymer science 2012-01, Vol.123 (2), p.1112-1119
Hauptverfasser:	Ochanda, Fredrick O., Samaha, Mohamed A., Tafreshi, Hooman Vahedi, Tepper, Gary C., Gad-el-Hak, Mohamed
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Sprache:	eng
Schlagworte:	Applied sciences Contact DC-biased AC-electrospinning Deposition electrospinning Energy use Exact sciences and technology fabrication and characterization of superhydrophobic surfaces Fibers Fibers and threads Forms of application and semi-finished materials Materials science Mats Polymer industry, paints, wood Polymers Polystyrene resins Porosity Shear stress superhydrophobic fibrous coatings superhydrophobic surfaces Technology of polymers
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creator	Ochanda, Fredrick O. Samaha, Mohamed A. Tafreshi, Hooman Vahedi Tepper, Gary C. Gad-el-Hak, Mohamed
description	Mesh‐like fiber mats of polystyrene (PS) were deposited using DC‐biased AC‐electrospinning. Superhydrophobic surfaces with water contact angles greater than 150° and gas fraction values of up to 97% were obtained. Rheological study was conducted on these fiber surfaces and showed a decrease in shear stress when compared with a noncoated surface (no slip), making them excellent candidates for applications requiring the reduction of skin‐friction drag in submerged surfaces. We have also shown that addition of a second, low‐surface energy polymer to a solution of PS can be used to control the fiber internal porosity depending on the concentration of the second polymer. Contact‐angle measurements on mats consisting of porous and nonporous fibers have been used to evaluate the role of the larger spaces between the fibers and the pores on individual fibers on superhydrophobicity. © 2011 Wiley Periodicals, Inc. J Appl Polym Sci, 2011
doi_str_mv	10.1002/app.34583
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Superhydrophobic surfaces with water contact angles greater than 150° and gas fraction values of up to 97% were obtained. Rheological study was conducted on these fiber surfaces and showed a decrease in shear stress when compared with a noncoated surface (no slip), making them excellent candidates for applications requiring the reduction of skin‐friction drag in submerged surfaces. We have also shown that addition of a second, low‐surface energy polymer to a solution of PS can be used to control the fiber internal porosity depending on the concentration of the second polymer. Contact‐angle measurements on mats consisting of porous and nonporous fibers have been used to evaluate the role of the larger spaces between the fibers and the pores on individual fibers on superhydrophobicity. © 2011 Wiley Periodicals, Inc. 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Appl. Polym. Sci</addtitle><description>Mesh‐like fiber mats of polystyrene (PS) were deposited using DC‐biased AC‐electrospinning. Superhydrophobic surfaces with water contact angles greater than 150° and gas fraction values of up to 97% were obtained. Rheological study was conducted on these fiber surfaces and showed a decrease in shear stress when compared with a noncoated surface (no slip), making them excellent candidates for applications requiring the reduction of skin‐friction drag in submerged surfaces. We have also shown that addition of a second, low‐surface energy polymer to a solution of PS can be used to control the fiber internal porosity depending on the concentration of the second polymer. Contact‐angle measurements on mats consisting of porous and nonporous fibers have been used to evaluate the role of the larger spaces between the fibers and the pores on individual fibers on superhydrophobicity. © 2011 Wiley Periodicals, Inc. 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source	Wiley Online Library Journals Frontfile Complete
subjects	Applied sciences Contact DC-biased AC-electrospinning Deposition electrospinning Energy use Exact sciences and technology fabrication and characterization of superhydrophobic surfaces Fibers Fibers and threads Forms of application and semi-finished materials Materials science Mats Polymer industry, paints, wood Polymers Polystyrene resins Porosity Shear stress superhydrophobic fibrous coatings superhydrophobic surfaces Technology of polymers
title	Fabrication of superhydrophobic fiber coatings by DC-biased AC-electrospinning
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