Applications of Polymer Nanofibers. Группа авторов
Чтение книги онлайн.
Читать онлайн книгу Applications of Polymer Nanofibers - Группа авторов страница 23
65 Lin, T., Wang, H., Wang, H., and Wang, X. (2004). The charge effect of cationic surfactants on the elimination of fibre beads in the electrospinning of polystyrene. Nanotechnology 15 (9): 1375–1381.
66 Luo, C.J., Nangrejo, M., and Edirisinghe, M. (2010). A novel method of selecting solvents for polymer electrospinning. Polymer (Guildf) 51 (7): 1654–1662.
67 Luo, C.J., Stride, E., and Edirisinghe, M. (2012). Mapping the influence of solubility and dielectric constant on electrospinning polycaprolactone solutions. Macromolecules 45 (11): 4669–4680.
68 Lyons, J., Li, C., and Ko, F. (2004). Melt‐electrospinning part I: processing parameters and geometric properties. Polymer (Guildf) 45 (22): 7597–7603.
69 Ma, H., Hsiao, B.S., and Chu, B. (2014). Functionalized electrospun nanofibrous microfiltration membranes for removal of bacteria and viruses. Journal of Membrane Science 452: 446–452.
70 Manasco, J.L., Saquing, C.D., Tang, C., and Khan, S.A. (2012). Cyclodextrin fibers via polymer‐free electrospinning. RSC Advances 2 (9): 3778–3784.
71 Mao, X.W., Hatton, T.A., and Rutledge, G.C. (2013). A review of electrospun carbon fibers as electrode materials for energy storage. Current Organic Chemistry 17 (13): 1390–1401.
72 Maretschek, S., Greiner, A., and Kissel, T. (2008). Electrospun biodegradable nanofiber nonwovens for controlled release of proteins. Journal of Controlled Release 127 (2): 180–187.
73 McKee, M.G., Wilkes, G.L., Colby, R.H., and Long, T.E. (2004). Correlations of solution rheology with electrospun fiber formation of linear and branched polyesters. Macromolecules 37 (5): 1760–1767.
74 McKee, M.G., Hunley, M.T., Layman, J.M., and Long, T.E. (2006). Solution rheological behavior and electrospinning of cationic polyelectrolytes. Macromolecules 39 (2): 575–583.
75 McKee, M.G., Layman, J.M., Cashion, M.P., and Long, T.E. (2006). Phospholipid nonwoven electrospun membranes. Science 311 (5759): 353–355.
76 Mit‐uppatham, C., Nithitanakul, M., and Supaphol, P. (2004). Ultratine electrospun polyamide‐6 fibers: effect of solution conditions on morphology and average fiber diameter RID C‐4353‐2008. Macromolecular Chemistry and Physics 205 (17): 2327–2338.
77 Moghe, A.K. and Gupta, B.S. (2008). Co‐axial electrospinning for nanofiber structures: preparation and applications. Polymer Reviews 48 (2): 353–377.
78 Muthiah, P., Hsu, S.H., and Sigmund, W. (2010). Coaxially electrospun PVDF‐teflon AF and teflon AF‐PVDF core‐sheath nanofiber mats with superhydrophobic properties. Langmuir 26 (15): 12483–12487.
79 Nain, A.S. and Wang, J. (2013). Polymeric nanofibers: isodiametric design space and methodology for depositing aligned nanofiber arrays in single and multiple layers. Polymer Journal 45 (7): 695–700.
80 Natarajan, L., New, J., Dasari, A. et al. (2014). Surface morphology of electrospun PLA fibers: mechanisms of pore formation. RSC Advances 4 (83): 44082–44088.
81 Niu, H., Wang, X., and Lin, T. (2011). Needleless electrospinning: developments and performances. In: Nanofibers ‐ Production, Properties and Functional Applications (ed. T. Lin), 17–36. Norderstedt, Germany: Books on Demand.
82 Norton, C.L. (1936). Method of and apparatus for producing fibrous or filamentary material. US Patent 20,486,51A, issued 1936. 21 July 1936.
83 Nuansing, W., Frauchiger, D., Huth, F. et al. (2013). Electrospinning of peptide and protein fibres: approaching the molecular scale. Faraday Discussions 166: 209–221.
84 Nuansing, W., Georgilis, E., de Oliveira, T.V.A.G. et al. (2014). Electrospinning of tetraphenylporphyrin compounds into wires. Particle and Particle Systems Characterization 31 (1): 88–93.
85 Nurwaha, D. and Wang, X. (2015). Free surface electrospinning: investigation of the combined effects of process parameters on the morphology of electrospun fibers. Fibers and Polymers 16 (4): 850–866.
86 Ogata, N., Shimada, N., Yamaguchi, S. et al. (2007). Melt‐electrospinning of poly(ethylene terephthalate) and polyalirate. Journal of Applied Polymer Science 105: 1127–1132.
87 Pai, C.L., Boyce, M.C., and Rutledge, G.C. (2009). Morphology of porous and wrinkled fibers of polystyrene electrospun from dimethylformamide. Macromolecules 42 (6): 2102–2114.
88 Park, J.H. and Braun, P.V. (2010). Coaxial electrospinning of self‐healing coatings. Advanced Materials 22 (4): 496–499.
89 Persano, L., Camposeo, A., Tekmen, C., and Pisignano, D. (2013). Industrial upscaling of electrospinning and applications of polymer nanofibers: a review. Macromolecular Materials and Engineering 298 (5): 504–520.
90 Praeger, M., Saleh, E., Vaughan, A. et al. (2012). Fabrication of nanoscale glass fibers by electrospinning. Applied Physics Letters 100 (6): 063114.
91 Qi, H., Hu, P., Xu, J., and Wang, A. (2006). Encapsulation of drug reservoirs in fibers by emulsion electrospinning: morphology characterization and preliminary release assessment. Biomacromolecules 7 (8): 2327–2330.
92 Qin, C.‐C., Duan, X.‐P., Wang, L. et al. (2015). Melt electrospinning of poly(lactic acid) and polycaprolactone microfibers by using a hand‐ operated Wimshurst generator. Nanoscale: 16611–16615.
93 Ramakrishna, S. (2005). Electrospinning process. In: An Introduction to Electrospinning and Nanofibers (ed. S. Ramakrishna), 90–154. World Scientific.
94 Reneker, D.H. and Chun, I. (1996). Nanometre diameter fibres of polymer, produced by electrospinning. Nanotechnology 7 (3): 216–223.
95 Rutledge, G.C. and Fridrikh, S.V. (2007). Formation of fibers by electrospinning. Advanced Drug Delivery Reviews 59 (14): 1384–1391.
96 Saquing, C.D., Tang, C., Monian, B. et al. (2013). Alginate‐polyethylene oxide blend nanofibers and the role of the carrier polymer in electrospinning. Industrial and Engineering Chemistry Research 52: 8692–8704.
97 Sarkar, K., Ghalia, M.B., Wu, Z., and Bose, S.C. (2009). A neural network model for the numerical prediction of the diameter of electro‐spun polyethylene oxide nanofibers. Journal of Materials Processing Technology 209 (7): 3156–3165.
98 Schaefer, K., Thomas, H., Dalton, P., and Moeller, M. (2007). Nano‐fibres for filter materials. In: Multifunctional Barriers for Flexible Structure, 125–138. Heidelberg: Springer, Berlin.
99 Schiffman, J.D. and Schauer, C.L. (2008). A review: electrospinning of biopolymer nanofibers and their applications. Polymer Reviews 48 (2): 317–352.
100 Seo, J.M., Arumugam, G.K., Khan, S., and Heiden, P.A. (2009). Comparison of the effects of an ionic liquid and other salts on the properties of electrospun fibers, 2 – poly(vinyl alcohol). Macromolecular Materials and Engineering 294 (1): 45–53.
101 Shenoy, S.L., Bates, W.D., Frisch, H.L., and Wnek, G.E. (2005). Role of chain entanglements on fiber formation during electrospinning of polymer solutions: good solvent, non‐specific polymer‐polymer interaction limit. Polymer (Guildf) 46 (10): 3372–3384.
102 Shenoy, S.L., Bates, W.D., and Wnek, G. (2005). Correlations between electrospinnability