2013
DOI: 10.1002/mame.201300055
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Advances in Electrospun Functional Nanofibers

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Cited by 12 publications
(5 citation statements)
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“…Semenov Institute of Chemical Physics of Russian Academy of Sciences. The electrospinning process was carried out under the following conditions: solution dynamic viscosity of 2–9 Pa·s, specific volumetric electrical conductivity of ∼10 −3 (Ohm m) −1 , volumetric flow rate of forming solution of 10 × 10 −5 –12 × 10 −5 g s −1 , electric field strength of 15 kV, interelectrode spacing of 18 cm . In preparation for the spinning, a solution of chemically pure chloroform was used.…”
Section: Methodsmentioning
confidence: 99%
“…Semenov Institute of Chemical Physics of Russian Academy of Sciences. The electrospinning process was carried out under the following conditions: solution dynamic viscosity of 2–9 Pa·s, specific volumetric electrical conductivity of ∼10 −3 (Ohm m) −1 , volumetric flow rate of forming solution of 10 × 10 −5 –12 × 10 −5 g s −1 , electric field strength of 15 kV, interelectrode spacing of 18 cm . In preparation for the spinning, a solution of chemically pure chloroform was used.…”
Section: Methodsmentioning
confidence: 99%
“…The viscosity-average molecular mass of the polymer was М = 2.06  10 5 , the density was  = 1.248 g/cm 3 , the melting temperature was T m = 177°С, and the crystallinity was 65 %. Ultrathin fibers of PHB were prepared via electrospinning [19]. The fibers were formed from 5 and 7 % PHB solutions in chloroform.…”
Section: Methodsmentioning
confidence: 99%
“…The 3D nanonetwork-structured polymer template can be divided into two types depending on the regularity of the structure (Figure 1b,c). For example, electrospinning is a typical technique to fabricate irregular 3D polymer nanonetworks over large areas [37][38][39][40]. Although electrospinning is an old technique, it is still the most powerful technique for the mass production of polymer nanonetworks.…”
Section: Preparation Of 3d Polymer Nanonetworkmentioning
confidence: 99%