C.J., Phatak, A., Giles, D.W. et al. (2007). Melt blown nanofibers: fiber diameter distributions and onset of fiber breakup. Polymer 48: 3306–3316.12 Fakhrali, A., Ebadi, S.V., and Gharehaghaji, A.A. (2015). Production of core‐sheath nanofiber yarn using two opposite asymmetric nozzles. Fibers and Polymers 15 (12): 2535–2540.
13 Fedorova, N. and Pourdeyhimi, B. (2007). High strength nylon micro‐ and nanofiber based nonwovens via spunbonding. Journal of Applied Polymer Science 104 (5): 3434–3442.
14 Feng, J. (2017). Preparation and properties of poly(lactic acid) fiber melt blown non‐woven disordered mats. Materials Letters 189: 180–183.
15 Ge, Y., Zhu, J., Dirican, M. et al. (2017). Fabrication and electrochemical behavior study of nano‐fibrous sodium titanate composite. Materials Letters 188: 176–179.
16 Gheibi, A., Latifi, M., Merati, A.A., and Bagherzadeh, R. (2014). Piezoelectric electrospun nanofibrous materials for self‐powering wearable electronic textiles applications. Journal of Polymer Research 21 (7): 469–475.
17 Gibson, P., Schreuder‐Gibson, H., and Rivin, D. (2001). Transport properties of porous membranes based on electrospun nanofibers. Colloids and Surfaces A: Physicochemical and Engineering Aspects 187: 469–481.
18 Gimenez‐Lopez, M.D.C., La Torre, A., Fay, M.W. et al. (2013). Assembly and magnetic bistability of Mn3O4 nanoparticles encapsulated in hollow carbon nanofibers. Angewandte Chemie International Edition 52 (7): 2051–2054.
19 Gorjanc, M., Bukošek, V., and Gorenšek, M. (2009). The influence of water vapor plasma treatment on specific properties of bleached and mercerized cotton fabric. Textile Research Journal 80 (6): 557–567.
20 Han, X.J., Huang, Z.M., He, C.L. et al. (2006). Coaxial electrospinning of PC (shell)/PU (core) composite nanofibers for textile application. Polymer Composites 27 (4): 381–387.
21 Han, F., Liu, S., Liu, X. et al. (2014). Woven silk fabric‐reinforced silk nanofibrous scaffolds for regenerating load‐bearing soft tissues. Acta Biomaterialia 10 (2): 921–930.
22 Hassan, M.A., Yeom, B.Y., Wilkie, A. et al. (2013). Fabrication of nanofiber meltblown membranes and their filtration properties. Journal of Membrane Science 427: 336–344.
23 He, J., Zhou, Y., Qi, K. et al. (2013). Continuous twisted nanofiber yarns fabricated by double conjugate electrospinning. Fibers and Polymers 14 (11): 1857–1863.
24 He, J., Qi, K., Wang, L. et al. (2015). Combined application of multinozzle air‐jet electrospinning and airflow twisting for the efficient preparation of continuous twisted nanofiber yarn. Fibers and Polymers 16 (6): 1319–1326.
25 Hou, T., Li, X., Lu, Y., and Yang, B. (2017). Highly porous fibers prepared by centrifugal spinning. Materials and Design 114: 303–311.
26 Jiang, G. and Qin, X. (2014). An improved free surface electrospinning for high throughput manufacturing of core‐shell nanofibers. Materials Letters 128: 259–262.
27 Jiang, G., Sai, Z., and Qin, X. (2013). High throughput of quality nanofibers via one stepped pyramid‐shaped spinneret. Materials Letters 106: 56–58.
28 Jiang, H., Ge, Y., Fu, K. et al. (2015). Centrifugally‐spun tin‐containing carbon nanofibers as anode material for lithium‐ion batteries. Journal of Materials Science 50 (3): 1094–1102.
29 Kanafchian, M., Valizadeh, M., and Haghi, A.K. (2011). Fabrication of nanostructured and multicompartmental fabrics based on electrospun nanofibers. Korean Journal of Chemical Engineering 28 (3): 763–769.
30 Kwon, I.K. and Matsuda, T. (2005). Co‐electrospun nanofiber fabrics of poly(l‐lactide‐ɛ‐caprolactone) with type I collagen or heparin. Biomacromolecules 6 (4): 2096–2105.
31 Laforgue, A. (2011). All‐textile flexible supercapacitors using electrospun poly(3,4‐ethylenedioxythiophene) nanofibers. Journal of Power Sources 196 (1): 559–564.
32 Lee, S. and Obendorf, S.K. (2007a). Use of electrospun nanofiber web for protective textile materials as barriers to liquid penetration. Textile Research Journal 77 (9): 696–702.
33 Lee, S. and Obendorf, S.K. (2007b). Transport properties of layered fabric systems based on electrospun nanofibers. Fibers and Polymers 8 (5): 501–506.
34 Lee, Y., Kim, B.S., Hong, J.H. et al. (2012). Enhanced mechanical properties and pre‐tension effects of polyurethane (Pu) nanofiber filaments prepared by electrospinning and dry twisting. Journal of Polymer Research 19 (2): 9774–9778.
35 Li, X. and Gong, Y. (2015). Design of polymeric nanofiber gauze mask to prevent inhaling PM2.5 particles from haze pollution. Journal of Chemistry 2015: 1–5.
36 Liu, Y., Huang, K., Fan, Y. et al. (2013). Binder‐free Si nanoparticles@carbon nanofiber fabric as energy storage material. Electrochimica Acta 102: 246–251.
37 Lu, Y., Fu, K., Zhang, S. et al. (2015). Centrifugal spinning: a novel approach to fabricate porous carbon fibers as binder‐free electrodes for electric double‐layer capacitors. Journal of Power Sources 273: 502–510.
38 Marano, S., Barker, S.A., Raimi‐Abraham, B.T. et al. (2016). Development of micro‐fibrous solid dispersions of poorly water‐soluble drugs in sucrose using temperature‐controlled centrifugal spinning. European Journal of Pharmaceutics and Biopharmaceutics 103: 84–94.
39 Matsumoto, H., Yako, H., Minagawa, M., and Tanioka, A. (2007). Characterization of chitosan nanofiber fabric by electrospray deposition: electrokinetic and adsorption behavior. Journal of Colloid and Interface Science 310 (2): 678–681.
40 McEachin, Z. and Lozano, K. (2012). Production and characterization of polycaprolactone nanofibers via forcespinning™ technology. Journal of Applied Polymer Science 126: 473–479.
41 Park, J.A. and Kim, S.B. (2017). Antimicrobial filtration with electrospun poly(vinyl alcohol) nanofibers containing benzyl triethylammonium chloride: immersion, leaching, toxicity, and filtration tests. Chemosphere 167: 469–477.
42 Park, S.J., Lee, B.K., Na, M.H., and Kim, D.S. (2013). Melt‐spun shaped fibers with enhanced surface effects: fiber fabrication, characterization and application to woven scaffolds. Acta Biomaterialia 9 (8): 7719–7726.
43 Park, M., Lee, K.S., Shim, J. et al. (2016). Environment friendly, transparent nanofiber textiles consolidated with high efficiency PLEDs for wearable electronics. Organic Electronics 36: 89–96.
44 Qin, X.H. and Xin, D.P. (2010). The study on the air volume fraction of electrospun nanofiber nonwoven mats. Fibers and Polymers 11 (4): 632–637.
45 Rajgarhia, S.S., Benavides, R.E., and Jana, S.C. (2016). Morphology control of bi‐component polymer nanofibers produced by gas jet process. Polymer 93: 142–151.
46 Safranskia, D.L., Boothby, J.M., Kelly, C.N. et al. (2016). Thermo‐mechanical behavior and structure of melt blown shape‐memory polyurethane nonwovens. Journal of Mechanical Behavior of Biomedical Materials 62 (2016): 545–555.
47 Shang, M., Wang, W., Yin, W. et al. (2010). General strategy for a large‐scale fabric with branched nanofiber‐nanorod hierarchical heterostructure: controllable synthesis and applications. Chemistry A European Journal 16 (37): 11412–11419.
48 Shao, W., He, J., Han, Q. et al. (2016). A biomimetic multilayer nanofiber fabric fabricated by electrospinning and
