A controllable simple method for production of polymeric nanofiberous composite via single nozzle jet electrospinning

Bagherzadeh, R., Latifi, M., Najar, S. Shaikhzadeh, Amani-Tehran, M. and Kong, Lingxue 2012, A controllable simple method for production of polymeric nanofiberous composite via single nozzle jet electrospinning, in ICNS4 : Proceedings of the 4th International Conference on Nanostructures, Sharif University of Technology, Iran, pp. 102-104.

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Title A controllable simple method for production of polymeric nanofiberous composite via single nozzle jet electrospinning
Author(s) Bagherzadeh, R.
Latifi, M.
Najar, S. Shaikhzadeh
Amani-Tehran, M.
Kong, Lingxue
Conference name International Conference on Nanostructures (4th : 2012 : Kish Island, Iran)
Conference location Kish Island, Iran
Conference dates 12-14 Mar. 2012
Title of proceedings ICNS4 : Proceedings of the 4th International Conference on Nanostructures
Editor(s) [Unknown]
Publication date 2012
Conference series International Conference on Nanostructures
Start page 102
End page 104
Total pages 3
Publisher Sharif University of Technology
Place of publication Iran
Keyword(s) nanofiber
nanocomposite
electrospinning
Summary A special Micro-Nano fiberous composite structure composed of nano- and micro-scale fiber of Polycaprolactone (PCL) and Gelatin produced by using single nozzle electrospinning instrument. By controlling the solution (polymer concentration and polymer composition percent) and processing parameters of electrospinning (feed rate and electrostatic field), different portion of nano and micro fibers in the structure is achieved. This method can result a one-stage method of fabrication of Micro-Nano fiberous composite structure instead of previously used twostage process or using additional facility to produce structure near-similar to this composite structure. The resulting materials finely mingle nano- and micro fibers together, rather than simply juxtaposing them, as is commonly found in the literature. The results obtained from SEM, Flow Porosimetry, and DMA led the authors to confirm that the structure has very versatile and improved properties for many applications like cell culture scaffolds. These favourable mechanical and structural properties can provide easier opening of spaces for cell penetration to deeper levels of the scaffold and withstand to tensions during to clinical handling.
Language eng
Field of Research 099999 Engineering not elsewhere classified
Socio Economic Objective 970109 Expanding Knowledge in Engineering
HERDC Research category E2.1 Full written paper - non-refereed / Abstract reviewed
Persistent URL http://hdl.handle.net/10536/DRO/DU:30052868

Document type: Conference Paper
Collection: Institute for Frontier Materials
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