65 X. Y. Yuan, Y. Y. Zhang, C. Dong, et al., Morphology of ultrafine 79 polysulfone fibers prepared by electrospinning, Polym. Int., 2004,
GENERAL INTRODUCTION
J. Zeng, X. Xu, X. Chen, et al., Biodegradable electrospun fibers for 1
drug delivery, J. Control. Release, 2003, 92, 227–231.
53, 1704–1710.
66 C. L. Casper, J. S. Stephens, N. G. Tassi, et al., Controlling Surface Morphology of Electrospun Polystyrene Fibers: E ect of Humidity and Molecular Weight in the Electrospinning Process, Macromolecules, 2004, 37, 573–578.
67 J. Lin, B. Ding and J. Yu, Direct Fabrication of Highly Nanoporous Polystyrene Fibers via Electrospinning, ACS Appl. Mater. Interfaces, 2010, 2, 521–528.
80 W. H. You, Young Lee, Seung Jin Min, Byung M. Park, E ect of solution properties on nanofibrous structure of electrospun poly(lactic-co-glycolic acid), J. Appl. Polym. Sci., 2006, 99, 1214– 1221.
81 M. Simonet, N. Stingelin, J. G. F. Wismans, et al., Tailoring the void space and mechanical properties in electrospun sca olds towards physiological ranges, J. Mater. Chem. B, 2014, 2, 305– 313.
68 P. Lu and Y. Xia, Maneuvering the internal porosity and surface 82 morphology of electrospun polystyrene yarns by controlling the solvent and relative humidity., Langmuir, 2013, 29, 7070–8.
69 H. Fashandi and M. Karimi, Pore formation in polystyrene 83 fiber by superimposing temperature and relative humidity of electrospinning atmosphere, Polymer, 2012, 53, 5832–5849.
70 S. De Vrieze, T. Van Camp, A. Nelvig, et al., The e ect of temperature and humidity on electrospinning, J. Mater. Sci., 84 2009, 44, 1357–1362.
4967.
S. Tripatanasuwan and D. H. Reneker, Corona discharge from electrospinning jet of poly(ethylene oxide) solution, Polymer, 2009, 50, 1835–1837.
R. Kessick, J. Fenn and G. Tepper, The use of AC potentials in electrospraying and electrospinning processes, Polymer, 2004, 45, 2981–2984.
71 R. T. Oğulata and H. İ. İçoğlu, Interaction between e ects of
ambient parameters and those of other important parameters 85
on electrospinning of PEI/NMP solution, J. Text. Inst., 2014, 106,
57–66. membranes via post-draw treatments, Polymer, 2003, 44, 4959–
72 O. Hardick, B. Stevens and D. G. Bracewell, Nanofibre fabrication
in a temperature and humidity controlled environment for 86 improved fibre consistency, J. Mater. Sci., 2011, 46, 3890–3898.
73 A. J. Meinel, K. E. Kubow, E. Klotzsch, et al., Optimization strategies for electrospun silk fibroin tissue engineering sca olds, 87 Biomaterials, 2009, 30, 3058–3067.
74 T. Liang, M. Parhizkar, M. Edirisinghe, et al., E ect of humidity on
the generation and control of the morphology of honeycomb-like 88
polymeric structures by electrospinning, Eur. Polym. J., 2014, 61,
72–82. and sca old based on newly devised multilayering and mixing
75 R. M. Nezarati, M. B. Eifert and E. Cosgri -Hernandez, E ects of Humidity and Solution Viscosity on Electrospun Fiber Morphology, 89 Tissue Eng. Part C Methods, 2013, 19, 810–819.
76 T. Jarusuwannapoom, W. Hongrojjanawiwat, S. Jitjaicham,
et al., E ect of solvents on electro-spinnability of polystyrene 90
electrospinning techniques, Biomaterials, 2005, 26, 37–46.
H. H. Htike, C. Long and S. Sukigara, The E ect of Relative Humidity on Electrospinning of Poly-(vinyl alcohol) with Soluble Eggshell Membrane, J. Text. Eng., 2012, 58, 9–12.
A. Golin, University of Western Ontario, 2014.
solutions and morphological appearance of resulting electrospun polystyrene fibers, Eur. Polym. J., 2005, 41, 409–421.
77 P. Supaphol, C. Mituppatham and M. Nithitanakul, Ultrafine Electrospun Polyamide-6 Fibers: E ects of Solvent System and Emitting Electrode Polarity on Morphology and Average Fiber Diameter, Macromol. Mater. Eng., 2005, 290, 933–942.
78 H. Fong, I. Chun and D. . Reneker, Beaded nanofibers formed during electrospinning, Polymer, 1999, 40, 4585–4592.
91 R. Gentsch, B. Boysen, A. Lankenau, et al., Single-Step Electrospinning of Bimodal Fiber Meshes for Ease of Cellular Infiltration, Macromol. Rapid Commun., 2010, 31, 59–64.
92 S. Soliman, S. Pagliari, A. Rinaldi, et al., Multiscale three- dimensional sca olds for so  tissue engineering via multimodal electrospinning, Acta Biomater., 2010, 6, 1227–1237.
G. C. Rutledge and S. B. Warner, Electrostatic Spinning and Properties of Ultrafine Fibers., Natl. Text. Cent. Annu. Rep., 2004, M01-D22, 1–10.
S. Kidoaki, I. K. Kwon and T. Matsuda, Structural features and mechanical properties of in situ-bonded meshes of segmented polyurethane electrospun from mixed solvents, J. Biomed. Mater. Res. Part B Appl. Biomater., 2006, 76, 219–229.
S. L. Zhao, X. H. Wu, L. G. Wang, et al., Electrospinning of ethyl- cyanoethyl cellulose/tetrahydrofuran solutions, J. Appl. Polym. Sci., 2004, 91, 242–246.
X. Zong, S. Ran, D. Fang, et al., Control of structure, morphology and property in electrospun poly(glycolide-co-lactide) non-woven
S. Kidoaki, I. K. Kwon and T. Matsuda, Mesoscopic spatial designs of nano- and microfiber meshes for tissue-engineering matrix
33