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Polymer Nanofibers via Electrospinning: Factors Affecting Nanofiber Quality

Year 2013, Volume: 16 Issue: 2, 1 - 12, 09.04.2014

Abstract

References

  • Romeo, V., (2007), “Preparation and Characterization of Polymer Nanocomposites with New Techniques”, Ph. D Thesis, Universita Degli Studi Di Salerno.
  • Çelep Ş., (2007), “Nanotechnology and Its aplication areas in textile ”, Master of Science, Çukurova Universitesi.
  • Kozanoğlu G. S., (2006), “Elektrospinning Yöntemiyle Nanolif Üretim Teknolojisi ”, Master of Science, İstanbul Teknik Üniversitesi (503041803).
  • W. Simm, K. Gosling, R. Bonart, B. von Falkai, GB 13462
  • Larrondo L,. Manley SJ., 1981, “J Polym Sci: Polym Phys ”, Ed 19-909.
  • M. Jacobsen., (1991), “Chemiefasern/Textilind ”, 36 –
  • J. Doshi, G. Srinivasan, D. Reneker., (1995), “ Polym. News ”, 20, 206 – 207.
  • Greiner, A.Wendorff, J.H., (2007), “Electrospinning: A fascinating method for the preparation of ultra thin fibers ”, Angew. Chem-Ger Edit. 46, 5670.
  • Zheng-Ming Huanga, Y.-Z. Zhangb, M. Kotakic, S. Ramakrishn,. (2003), “A review on polymer nanofibers by electrospinning and their applications in nanocomposites”, Composites Science and Technology, vol. 63, no. 15, pp. 2223-2253.
  • Formhals, A., (1934), “Apparatus for producing artificial filaments from material such as cellulose acetate”, US patent no. 1975504.
  • Reneker DH, Chun I., (1996), “ Nanometre diameter fibres of polymer, produced by electrospinning”, Nanotechnology 7:216–23.
  • Doshi J, Reneker DH., (1995), “Electrospinning process and applications of electrospun fibers”, J Electrostat 35:151–60.
  • Ganan Calvo A. M. Barrero A., (1997), “Current and droplet size in the electrospraying of liquid scaling laws”, Journal of Aerosol Science, 28(2): 249-275.
  • Taylor S. G., (1969), “ Electrically driven jets”, Proceedings of the Royal Society of London Series A Mathematical and Physical Science, 313: 453-475.
  • Reneker DH, Yarin AL, Fong H, Sureeporn K., (2000), “ Bending instability of electrically charged liquid jets of polymer solutions in electrospinning”, J Appl Phys 87:4531–47.
  • Shin YM, Hohman MM, Brenner MP, Rutledge GC., (2001), “ Experimental characterization of electrospinning: the electrically forced jet and instabilities”, Polymer 42:9955–67.
  • Shin YM, Hohman MM, Brenner MP, Rutledge GC., (2001),“ Electrospinning: a whipping fluid jet generates submicron polymer fibers”, Appl Phys Lett 78:1149–51.
  • Fang X, Reneker DH., (1997), “DNA fibers by electrospinning”, J Macromol Sci Phys B36:169–73.
  • H. Fong, I. Chun, D.H. Reneker., (1999), “Polymer”, 40 (16) 4585.
  • Hohman M.M., Shin M., Rutledge G., (2001), “Electrospinning and electrically forced jets. Stability theory”, Phys Fluids 13:2201–20.
  • Başal G., Doğan G., (2009), “ Elektrolif Çekim Yöntemine Göre Elde Edilen Biyopolimer Nanoliflerin İlaç Salınım Sistemleri, Yara Örtüsü ve Doku İskelesi Olarak Kullanımları ”, Tekstil Teknolojileri Elektronik Dergisi, Cilt: 3, No: 2, (58-70).
  • Reneker D.H, Yarin A.L, Fong H, Sureeporn K., (2000), “ Bending instability of electrically charged liquid jets of polymer solutions in electrospinning”, J ;87:4531–47.
  • Shin Y.M, Hohman M.M, Brenner MP, Rutledge GC., (2001), “Experimental characterization of electrospinning: the electrically forced jet and instabilities”, Polymer 42:9955–67.
  • Moses H., Gregory R., Michael P.., (2001), “Electropinning and electrically forced jets I. Stability theory”, Physics of Fluids, 13(8).
  • Shu Zhna., (2009), “ Mechanical and Physical Properties of Electrospun Nanofibers ”, A thesis submitted to the Graduate Faculty of North Carolina State University in partial fulfillment of the requirements for the degree of Master of Science, Textile Chemistry.
  • Shin Y. M., Brenner M. P., Rutledge G. C., (2001), “Experimental characterization of electrospinning: the electrically forced jet and instabilities”, Polymer,;42: 9955-9967.
  • Moses H., Gregory R., Michael P., (2001), “Electrospinning and electrically forced jets. II. Applications”, Physics of Fluids.
  • Dan L., Yun X., (2003), “ Fabrication of titania nanofibers by electrospinning”, Nano Letters, 3(4): 5555
  • Zheng M. H., Ying Z. Z., Kotaki M., Ramakrishna, S., (2003), “ A review on polymer nanofibers by electrospinning and their applications in nanocomposites”, Composites Science and Technology, 63: 2223-2253.
  • Timothy G., (2002), “Polymeric nanofibers and nanofiber webs: A new class of nonwovens”, Proceeds of INTC 2002, International Nonwovens Technical Conference.
  • Sundaray B., Subramanian V., Natarajan T.S., Xiang R.Z., Chang C.C., Fann W.S., (2004), “ Electrospinning of continuous aligned polymer fibers”, Appl Phys Lett 84:1222–4.
  • Katta P., Alessandro M., Ramsier R.D., Chase G.G., (2004), “Continuous electrospinning of aligned polymer nanofibers onto a wire drum collector”, Nano Lett 4:2215–8.
  • Theron A., Zussman E., Yarin A.L., (2001), “Electrostatic field-assisted alignment of electrospun nanofibres”, Nanotechnology;12:384–90.
  • Fennessey S.F., Farris R.J., (2008), “Fabrication of aligned and molecularly oriented electrospun polyacrylonitrile nanofibers and the mechanical behavior of their twisted yarns”, Polymer 45:4217–25.
  • Baji, A., Mai, Y.W., Wong, S.C., Abtahi, M., Chen, P., (2010), “Electrospinning of polymer nanofibers: Effects on oriented morphology structures and tensile properties”, Composites Science and Technology 70, 70
  • Huang, Z.M., Zhang, Y.Z, Kotaki M, Ramakrishna, S., (2003), “A review on polymer nanofibers by electrospinning and their applications in nanocomposites”, Comp Sci Technol ,63:2223–53.
  • Baji A., Mai Y.W., Wong S.C., Abtahi M., Chen P., 2010, “Electrospinning of polymer nanofibers: Effect on oriented morphology, structures and tensile properties”, Composites Science and Technology, Vol. 70(5), pp. 703-718
  • Flemming, R.G., Murphy C. J., Abrams G. A., Goodman S. L., Nealey P. F., (1999), “Effects of synthetic micro-and nano-structured surfaces on cell behavior”, Biomaterials, 20: 573-588.
  • Mathew J. A., Wnek G. E., Simpson D. G., Bowlin G. L., (2002), “ Electrospinning of collagen nanofibers”, Biomacromolecules, 3: 232-238.
  • Lu, X., Wang, C., Wei, Y., (2009), “One-dimensional composite nanomaterials: Synthesis by electrospinning and their applications”, Small, 5, 2349.
  • Huang ZM, Zhang YZ, Kotaki M, Ramakrishna S., (2003), “A review on polymernanofibers by electrospinning and their applications in nanocomposites”, Comp Sci Technol, 63:2223–53.
  • Fennessey, S.F., Farris, R.J., (2008), “ Fabrication of aligned and molecularly oriented electrospun polyacrylonitrile nanofibers and the mechanical behavior of theirtwisted yarns”, Polymer, 45:4217–25.
  • Mathew, G., Hong, J.P,, Rhee, J.M., Lee, H.S., Nah, C., (2005), “ Preparation and characterization of properties of electrospun poly(butylene terephthalate) nanofibers filled with carbon nanotubes”, Polym Test 24:712–7.
  • Xu, C.Y., Inai, R., Kotaki, M., Ramakrishna, S., (2004), “Aligned biodegradable nanofibrous structure: a potential scaffold for blood vessel engineering”, Biomaterials, 25:877–86.
  • Fujihara, K., Teo, W.E., Lim, T.C., Ramakrishna, S. and Ma, Z., (2005), “An Introduction to Electrospinning and Nanofibers”, National University of Singapore, USA.
  • Baji, A., Mai, Y.W., Wong, S.C., Abtahi, M., Chen, P., (2010), “Electrospinning of polymer nanofibers: Effects on oriented morphology structures and tensile properties”, Composites Science and Technology, 70, 70
  • Bowlin, G.L., Pawlowski, K.J., Boland, E.D., Simpson, D.G., Fenn, J., Wnek, G.E., Stitzel, J., (2002), “Electrospinning of polymer scaffolds for tissue engineering”, In Lewandrowski, K.U. (ed.),Tissue engineering and biodegradable equivalents: Scientific and clinical applications. New York: Marcel Dekker, pp. 165–178.
  • Fong, H., Reneker, D., In Salem, D.R. (ed.), (2000), “Electrospinning and the formation of nanofibers”, Structure formation in polymeric fibers. New Jersey: Hanser Gardner, p. 231.
  • Tong, H.W., Wang, M., (2011), “Electrospinning of Poly(Hydroxybutyrateco-hydroxyvalerate) Fibrous Scaffolds for Tissue Engineering Applications: Effects of Electrospinning Parameters and Solution Properties”, Journal of Macromolecular Science, Part B: Physics, 50(8), 1535-1558.
  • Andrady, A.L., (2008), “Science and Technology of Polymer Nanofibers”, Wiley Publication, New Jersey, USA.
  • İkiz,Y., (2009), “Effect of Process Parameters on Morphology of Electrospun PVA Nanofibers”, Pamukkale Universitesi Mühendislik Bilimleri Dergisi, 15(3), 363-369
  • Baker, S.C., Atkin, N., Gunning, P.A., Granville, N.,Wilson, K., Wilson, D., Southgate, J., (2006), “Characterisation of electrospun polystyrene scaffolds for three-dimensional in vitro biological studies”, Biomaterials, 27, 3136.
  • Catalani, L.H., Collins, G., Jaffe, M., (2007) , “Evidence for molecular orientation and residual charge in the electrospinning of poly(butylene terephthalate) nanofibers”, Macromolecules 40, 1693.
  • Demir, M.M., Yilgor, I., Yilgor, E., Erman, B., (2002), “Electrospinning of polyurethane fibers”, Polymer, 43, 3303.
  • Fennessey, S.F., “Farris, R.J., (2004), “Fabrication of aligned and molecularly oriented electrospun polyacrylonitrile nanofibers and the mechanical behavior of their twisted yarns”, Polymer, 45, 4217.
  • Zhang, C., Yuan, X., Wu, L., Han, Y., Sheng, J., (2005), “Study on morphology of electrospun poly(vinylalcohol) mats”, Eur. Polym. J., 41, 423.
  • Y.Ördem, O.S., Papila, M., Menceloglu, Y.Z., (2008), “Effects of electrospinning parameters on polyacrylonitrile nanofiber diameter: An investigation by response surface methodology”, Mater. Design., 29,
  • Buchko, C.J., Chen, L.C., Shen, Y., Martin, D.C., (1999), “Processing and microstructural characterization of porous biocompatible protein polymer thin films”, Polymer, 40, 7397.
  • Kidoaki, S., Kwon, I.K., Matsuda, T., (2005), “Mesoscopic spatial designs of nano- and microfiber meshes for tissue-engineering matrix and scaffold based on newly devised multilayering and mixing electrospinning techniques”, Biomaterials, 26, 37.
  • Li,Q., Yang,Y., Jia, Z., Guan, Z., (2007), “Experimental investigation of the effect of processing parameters on the formation of electrospun polyethylene oxide nanofibers”, High Voltage Eng., 33, 186.
  • Lyons, J., Li, C., Ko, F., (2004), “Meltelectrospinning part I: Processing parameters and geometric properties”, Polymer, 45, 7597.
  • Yordem, O.S., Papila, M., Menceloglu, Y.Z., (2008), “ Effects of electrospinning parameters on polyacrylonitrile nanofiber diameter: An investigation by response surface methodology”, Mater. Design., 29, Reneker, D.H., Yarin, A.L., Fong, H., Koombhongse, S., (2000) “Bending instability of electricallycharged liquid jets of polymer solutions in electrospinning”, J. Appl. Phys., 87, 4531.
  • Tong, H.W., Wang, M., (2011), “Electrospinning of Poly(Hydroxybutyrateco-hydroxyvalerate) Fibrous Scaffolds for Tissue Engineering Applications: Effects of Electrospinning Parameters and Solution Properties”, China.
  • Heikkila, P., Harlin, A., (2008), “Parameter study of electrospinning of polyamide-6”, European Polymer Journal, 44(10), 3067.
  • Fong, H., Reneker, D. In Salem, D.R. (ed.), (2000), “ Electrospinning and the formation of nanofibers”, Structure formation in polymeric fibers. New Jersey: Hanser Gardner, p. 231.
  • Tan, S.H., Inai, R., Kotaki, M., Ramakrishna, S., (2005), “Systematic parameter study for ultra-fine fiber fabrication via electrospinning process”, Polymer, 46, 61
  • Cui,W., Li, X., Zhou, S., Weng, J., (2007), “Investigation on process parameters of electrospinning system through orthogonal experimental design”, J. Appl. Polym. Sci., 103, 3105.
  • Nottelet, B.,; Pektok, E., Mandracchia,D., Tille, J.C., Walpoth, B., Gurny,R., Moller, M., (2009), “Factorial design optimization and in vivo feasibility of poly(caprolactone)-microand nanofiber-based small diameter vascular grafts”, J. Biomed. Mater. Res. A., 89, 8
  • Ramakrishna, S., Fujihara, K., Teo, W.E., Lim, T.C., Ma, Z., (2005), “An Introduction to Electrospinning and Nanofibers”, National University of Singapore.
  • Gumus, T., (2009), “Design and Manufacture of Polymeric Nanofiber Membranes Via Electrospinning Method”, Master Thesis, Istanbul Technical University. http://en.wikipedia.org/wiki/Electrospinning Date :02013

Elektro Çekim Yoluyla Polimer Nanolifler: Nanolif Kalitesini Etkileyen Faktörler

Year 2013, Volume: 16 Issue: 2, 1 - 12, 09.04.2014

Abstract

Nanoliflerin üretimi için fibrilasyon, bikomponent, melt blown ve elektro çekim gibi çeşitli yöntemler geliştirilmiştir. Elektrospinning, mikro ve nano liflerden lifli malzemeler üretmek için geliştirilen basit bir tekniktir ve filtrasyon, kataliz, pil / hücre, sensörler, nanolif donatı, koruyucu giysiler, medikal protezler, pansuman, yara, kontrollü ilaç dağıtım, kozmetik ve doku mühendisliği gibi geniş bir uygulama alanlarında kullanılır. Nanolifler çok çeşitli polimerlerden üretilebilmektedir ve küçük çaplarından dolayı son derece yüksek bir özgül yüzey alanına sahip olmaktadır. Polimerlerin fonksiyonları üzerinde bu benzersiz özellikleri ve uygulamaların gelişmesi ile istenen özelliklerde nanolifler üretilebilmektedir.

References

  • Romeo, V., (2007), “Preparation and Characterization of Polymer Nanocomposites with New Techniques”, Ph. D Thesis, Universita Degli Studi Di Salerno.
  • Çelep Ş., (2007), “Nanotechnology and Its aplication areas in textile ”, Master of Science, Çukurova Universitesi.
  • Kozanoğlu G. S., (2006), “Elektrospinning Yöntemiyle Nanolif Üretim Teknolojisi ”, Master of Science, İstanbul Teknik Üniversitesi (503041803).
  • W. Simm, K. Gosling, R. Bonart, B. von Falkai, GB 13462
  • Larrondo L,. Manley SJ., 1981, “J Polym Sci: Polym Phys ”, Ed 19-909.
  • M. Jacobsen., (1991), “Chemiefasern/Textilind ”, 36 –
  • J. Doshi, G. Srinivasan, D. Reneker., (1995), “ Polym. News ”, 20, 206 – 207.
  • Greiner, A.Wendorff, J.H., (2007), “Electrospinning: A fascinating method for the preparation of ultra thin fibers ”, Angew. Chem-Ger Edit. 46, 5670.
  • Zheng-Ming Huanga, Y.-Z. Zhangb, M. Kotakic, S. Ramakrishn,. (2003), “A review on polymer nanofibers by electrospinning and their applications in nanocomposites”, Composites Science and Technology, vol. 63, no. 15, pp. 2223-2253.
  • Formhals, A., (1934), “Apparatus for producing artificial filaments from material such as cellulose acetate”, US patent no. 1975504.
  • Reneker DH, Chun I., (1996), “ Nanometre diameter fibres of polymer, produced by electrospinning”, Nanotechnology 7:216–23.
  • Doshi J, Reneker DH., (1995), “Electrospinning process and applications of electrospun fibers”, J Electrostat 35:151–60.
  • Ganan Calvo A. M. Barrero A., (1997), “Current and droplet size in the electrospraying of liquid scaling laws”, Journal of Aerosol Science, 28(2): 249-275.
  • Taylor S. G., (1969), “ Electrically driven jets”, Proceedings of the Royal Society of London Series A Mathematical and Physical Science, 313: 453-475.
  • Reneker DH, Yarin AL, Fong H, Sureeporn K., (2000), “ Bending instability of electrically charged liquid jets of polymer solutions in electrospinning”, J Appl Phys 87:4531–47.
  • Shin YM, Hohman MM, Brenner MP, Rutledge GC., (2001), “ Experimental characterization of electrospinning: the electrically forced jet and instabilities”, Polymer 42:9955–67.
  • Shin YM, Hohman MM, Brenner MP, Rutledge GC., (2001),“ Electrospinning: a whipping fluid jet generates submicron polymer fibers”, Appl Phys Lett 78:1149–51.
  • Fang X, Reneker DH., (1997), “DNA fibers by electrospinning”, J Macromol Sci Phys B36:169–73.
  • H. Fong, I. Chun, D.H. Reneker., (1999), “Polymer”, 40 (16) 4585.
  • Hohman M.M., Shin M., Rutledge G., (2001), “Electrospinning and electrically forced jets. Stability theory”, Phys Fluids 13:2201–20.
  • Başal G., Doğan G., (2009), “ Elektrolif Çekim Yöntemine Göre Elde Edilen Biyopolimer Nanoliflerin İlaç Salınım Sistemleri, Yara Örtüsü ve Doku İskelesi Olarak Kullanımları ”, Tekstil Teknolojileri Elektronik Dergisi, Cilt: 3, No: 2, (58-70).
  • Reneker D.H, Yarin A.L, Fong H, Sureeporn K., (2000), “ Bending instability of electrically charged liquid jets of polymer solutions in electrospinning”, J ;87:4531–47.
  • Shin Y.M, Hohman M.M, Brenner MP, Rutledge GC., (2001), “Experimental characterization of electrospinning: the electrically forced jet and instabilities”, Polymer 42:9955–67.
  • Moses H., Gregory R., Michael P.., (2001), “Electropinning and electrically forced jets I. Stability theory”, Physics of Fluids, 13(8).
  • Shu Zhna., (2009), “ Mechanical and Physical Properties of Electrospun Nanofibers ”, A thesis submitted to the Graduate Faculty of North Carolina State University in partial fulfillment of the requirements for the degree of Master of Science, Textile Chemistry.
  • Shin Y. M., Brenner M. P., Rutledge G. C., (2001), “Experimental characterization of electrospinning: the electrically forced jet and instabilities”, Polymer,;42: 9955-9967.
  • Moses H., Gregory R., Michael P., (2001), “Electrospinning and electrically forced jets. II. Applications”, Physics of Fluids.
  • Dan L., Yun X., (2003), “ Fabrication of titania nanofibers by electrospinning”, Nano Letters, 3(4): 5555
  • Zheng M. H., Ying Z. Z., Kotaki M., Ramakrishna, S., (2003), “ A review on polymer nanofibers by electrospinning and their applications in nanocomposites”, Composites Science and Technology, 63: 2223-2253.
  • Timothy G., (2002), “Polymeric nanofibers and nanofiber webs: A new class of nonwovens”, Proceeds of INTC 2002, International Nonwovens Technical Conference.
  • Sundaray B., Subramanian V., Natarajan T.S., Xiang R.Z., Chang C.C., Fann W.S., (2004), “ Electrospinning of continuous aligned polymer fibers”, Appl Phys Lett 84:1222–4.
  • Katta P., Alessandro M., Ramsier R.D., Chase G.G., (2004), “Continuous electrospinning of aligned polymer nanofibers onto a wire drum collector”, Nano Lett 4:2215–8.
  • Theron A., Zussman E., Yarin A.L., (2001), “Electrostatic field-assisted alignment of electrospun nanofibres”, Nanotechnology;12:384–90.
  • Fennessey S.F., Farris R.J., (2008), “Fabrication of aligned and molecularly oriented electrospun polyacrylonitrile nanofibers and the mechanical behavior of their twisted yarns”, Polymer 45:4217–25.
  • Baji, A., Mai, Y.W., Wong, S.C., Abtahi, M., Chen, P., (2010), “Electrospinning of polymer nanofibers: Effects on oriented morphology structures and tensile properties”, Composites Science and Technology 70, 70
  • Huang, Z.M., Zhang, Y.Z, Kotaki M, Ramakrishna, S., (2003), “A review on polymer nanofibers by electrospinning and their applications in nanocomposites”, Comp Sci Technol ,63:2223–53.
  • Baji A., Mai Y.W., Wong S.C., Abtahi M., Chen P., 2010, “Electrospinning of polymer nanofibers: Effect on oriented morphology, structures and tensile properties”, Composites Science and Technology, Vol. 70(5), pp. 703-718
  • Flemming, R.G., Murphy C. J., Abrams G. A., Goodman S. L., Nealey P. F., (1999), “Effects of synthetic micro-and nano-structured surfaces on cell behavior”, Biomaterials, 20: 573-588.
  • Mathew J. A., Wnek G. E., Simpson D. G., Bowlin G. L., (2002), “ Electrospinning of collagen nanofibers”, Biomacromolecules, 3: 232-238.
  • Lu, X., Wang, C., Wei, Y., (2009), “One-dimensional composite nanomaterials: Synthesis by electrospinning and their applications”, Small, 5, 2349.
  • Huang ZM, Zhang YZ, Kotaki M, Ramakrishna S., (2003), “A review on polymernanofibers by electrospinning and their applications in nanocomposites”, Comp Sci Technol, 63:2223–53.
  • Fennessey, S.F., Farris, R.J., (2008), “ Fabrication of aligned and molecularly oriented electrospun polyacrylonitrile nanofibers and the mechanical behavior of theirtwisted yarns”, Polymer, 45:4217–25.
  • Mathew, G., Hong, J.P,, Rhee, J.M., Lee, H.S., Nah, C., (2005), “ Preparation and characterization of properties of electrospun poly(butylene terephthalate) nanofibers filled with carbon nanotubes”, Polym Test 24:712–7.
  • Xu, C.Y., Inai, R., Kotaki, M., Ramakrishna, S., (2004), “Aligned biodegradable nanofibrous structure: a potential scaffold for blood vessel engineering”, Biomaterials, 25:877–86.
  • Fujihara, K., Teo, W.E., Lim, T.C., Ramakrishna, S. and Ma, Z., (2005), “An Introduction to Electrospinning and Nanofibers”, National University of Singapore, USA.
  • Baji, A., Mai, Y.W., Wong, S.C., Abtahi, M., Chen, P., (2010), “Electrospinning of polymer nanofibers: Effects on oriented morphology structures and tensile properties”, Composites Science and Technology, 70, 70
  • Bowlin, G.L., Pawlowski, K.J., Boland, E.D., Simpson, D.G., Fenn, J., Wnek, G.E., Stitzel, J., (2002), “Electrospinning of polymer scaffolds for tissue engineering”, In Lewandrowski, K.U. (ed.),Tissue engineering and biodegradable equivalents: Scientific and clinical applications. New York: Marcel Dekker, pp. 165–178.
  • Fong, H., Reneker, D., In Salem, D.R. (ed.), (2000), “Electrospinning and the formation of nanofibers”, Structure formation in polymeric fibers. New Jersey: Hanser Gardner, p. 231.
  • Tong, H.W., Wang, M., (2011), “Electrospinning of Poly(Hydroxybutyrateco-hydroxyvalerate) Fibrous Scaffolds for Tissue Engineering Applications: Effects of Electrospinning Parameters and Solution Properties”, Journal of Macromolecular Science, Part B: Physics, 50(8), 1535-1558.
  • Andrady, A.L., (2008), “Science and Technology of Polymer Nanofibers”, Wiley Publication, New Jersey, USA.
  • İkiz,Y., (2009), “Effect of Process Parameters on Morphology of Electrospun PVA Nanofibers”, Pamukkale Universitesi Mühendislik Bilimleri Dergisi, 15(3), 363-369
  • Baker, S.C., Atkin, N., Gunning, P.A., Granville, N.,Wilson, K., Wilson, D., Southgate, J., (2006), “Characterisation of electrospun polystyrene scaffolds for three-dimensional in vitro biological studies”, Biomaterials, 27, 3136.
  • Catalani, L.H., Collins, G., Jaffe, M., (2007) , “Evidence for molecular orientation and residual charge in the electrospinning of poly(butylene terephthalate) nanofibers”, Macromolecules 40, 1693.
  • Demir, M.M., Yilgor, I., Yilgor, E., Erman, B., (2002), “Electrospinning of polyurethane fibers”, Polymer, 43, 3303.
  • Fennessey, S.F., “Farris, R.J., (2004), “Fabrication of aligned and molecularly oriented electrospun polyacrylonitrile nanofibers and the mechanical behavior of their twisted yarns”, Polymer, 45, 4217.
  • Zhang, C., Yuan, X., Wu, L., Han, Y., Sheng, J., (2005), “Study on morphology of electrospun poly(vinylalcohol) mats”, Eur. Polym. J., 41, 423.
  • Y.Ördem, O.S., Papila, M., Menceloglu, Y.Z., (2008), “Effects of electrospinning parameters on polyacrylonitrile nanofiber diameter: An investigation by response surface methodology”, Mater. Design., 29,
  • Buchko, C.J., Chen, L.C., Shen, Y., Martin, D.C., (1999), “Processing and microstructural characterization of porous biocompatible protein polymer thin films”, Polymer, 40, 7397.
  • Kidoaki, S., Kwon, I.K., Matsuda, T., (2005), “Mesoscopic spatial designs of nano- and microfiber meshes for tissue-engineering matrix and scaffold based on newly devised multilayering and mixing electrospinning techniques”, Biomaterials, 26, 37.
  • Li,Q., Yang,Y., Jia, Z., Guan, Z., (2007), “Experimental investigation of the effect of processing parameters on the formation of electrospun polyethylene oxide nanofibers”, High Voltage Eng., 33, 186.
  • Lyons, J., Li, C., Ko, F., (2004), “Meltelectrospinning part I: Processing parameters and geometric properties”, Polymer, 45, 7597.
  • Yordem, O.S., Papila, M., Menceloglu, Y.Z., (2008), “ Effects of electrospinning parameters on polyacrylonitrile nanofiber diameter: An investigation by response surface methodology”, Mater. Design., 29, Reneker, D.H., Yarin, A.L., Fong, H., Koombhongse, S., (2000) “Bending instability of electricallycharged liquid jets of polymer solutions in electrospinning”, J. Appl. Phys., 87, 4531.
  • Tong, H.W., Wang, M., (2011), “Electrospinning of Poly(Hydroxybutyrateco-hydroxyvalerate) Fibrous Scaffolds for Tissue Engineering Applications: Effects of Electrospinning Parameters and Solution Properties”, China.
  • Heikkila, P., Harlin, A., (2008), “Parameter study of electrospinning of polyamide-6”, European Polymer Journal, 44(10), 3067.
  • Fong, H., Reneker, D. In Salem, D.R. (ed.), (2000), “ Electrospinning and the formation of nanofibers”, Structure formation in polymeric fibers. New Jersey: Hanser Gardner, p. 231.
  • Tan, S.H., Inai, R., Kotaki, M., Ramakrishna, S., (2005), “Systematic parameter study for ultra-fine fiber fabrication via electrospinning process”, Polymer, 46, 61
  • Cui,W., Li, X., Zhou, S., Weng, J., (2007), “Investigation on process parameters of electrospinning system through orthogonal experimental design”, J. Appl. Polym. Sci., 103, 3105.
  • Nottelet, B.,; Pektok, E., Mandracchia,D., Tille, J.C., Walpoth, B., Gurny,R., Moller, M., (2009), “Factorial design optimization and in vivo feasibility of poly(caprolactone)-microand nanofiber-based small diameter vascular grafts”, J. Biomed. Mater. Res. A., 89, 8
  • Ramakrishna, S., Fujihara, K., Teo, W.E., Lim, T.C., Ma, Z., (2005), “An Introduction to Electrospinning and Nanofibers”, National University of Singapore.
  • Gumus, T., (2009), “Design and Manufacture of Polymeric Nanofiber Membranes Via Electrospinning Method”, Master Thesis, Istanbul Technical University. http://en.wikipedia.org/wiki/Electrospinning Date :02013
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Authors

Seyma Sırın

Suat Cetıner

A. Sezai Sarac

Publication Date April 9, 2014
Submission Date October 23, 2013
Published in Issue Year 2013Volume: 16 Issue: 2

Cite

APA Sırın, S., Cetıner, S., & Sarac, A. S. (2014). Polymer Nanofibers via Electrospinning: Factors Affecting Nanofiber Quality. Kahramanmaraş Sütçü İmam Üniversitesi Mühendislik Bilimleri Dergisi, 16(2), 1-12. https://doi.org/10.17780/ksujes.32065