References

1. R.J. Peterson, Composite reverse osmosis and nanofiltration membranes, J. Membr. Sci., 83 (1993) 81.
2. R.W. Baker, Membrane Technology and Applications, 3rd ed., John Wiley & Sons, Chichester, (2012) 207–247.
3. T. Matsuura, Progress in membrane science and technology for seawater desalination—a review, Desalination, 134 (2001) 47–54.
4. V. Freger, Nanoscale heterogeneity of polyamide membranes formed by interfacial polymerization, Langmuir, 19 (2003) 47–91.
5. Y. Song, P. Sun, L.L. Henry, B. Sun, Mechanisms of structure and performance controlled thin film composite membranes formation via interfacial polymerization process, J. Membr. Sci., 251 (2005) 67–79.
6. M. Liu, S. Yu, M. Qi, Q. Pan, C. Gao, Impact of manufacture technique on seawater desalination performance of thin-film composite polyamide-urethane reverse osmosis membranes and their spiral wound elements, J. Membr. Sci., 348 (2010) 268–276.
7. C.C. Wamser, R.R. Bard, V. Senthilathipan, Synthesis and photoactivity of chemically asymmetric polymeric porphyrin films made by interfacial polymerization, J. Am. Chem. Soc., 111 (1989) 8485–8491.
8. A.K. Ghosh, and E.M.V. Hoek, Impacts of support membrane structure and chemistry on polyamide-polysulfone interfacial composite membranes, J. Membr. Sci., 336 (2009) 140–148.
9. C.K. Kim, J.H. Kim, I.J. Roh, J.J. Kim, The changes of membrane performance with polyamide molecular structure in the reverse osmosis process, J. Membr. Sci., 165 (2000) 189–199.
10. Y. Jin, and Z. Su, Effects of polymerization conditions on hydrophilic groups in aromatic polyamide thin films, J. Membr. Sci., 330 (2009) 175–179.
11. Y. Mansourpanah, S.S. Madaeni, A. Rahimpour, Fabrication and development of interfacial polymerized thin-film composite nanofiltration membrane using different surfactants in organic phase; study of morphology and performance, J. Membr. Sci., 343 (2009) 219–228.
12. L. Yung. H. Ma, X. Wang, K. Yoon, R. Wang, B.S. Hsiao, B. Chu, Fabrication of thin-film nanofibrous composite membranes by interfacial polymerization using ionic liquids as additives, J.Membr. Sci., 265 (2010) 52–58.
13. M. Hirose, H. Ito, Y. Kamijama, Effect of skin layer surface structures on the flux behavior of RO membranes, J. Membr. Sci., 121 (1996) 209–215.
14. A.K. Ghosh, B.H. Jeong, X. Huang, E.M.V. Hoek, Impacts of reaction and curing conditions on polyamide thin films, J. Membr. Sci., 330 (2009) 175–179.
15. T.H. Grafe, K.M. Graham, Nanofiber webs from electrospinning. Nonwovens in Filtration—Fifth Int. Conf. (2003) 1–5.
16. D. Emig, A. Klimmek, E. Raabe, Dust filter bag containing nano nonwoven tissue, US Patent 6,395,046 B1.
17. M.G. Hajra, K. Mehta, G.G. Chase, Effects of humidity, temperature, and nanofibers on drop coalescence in glass fiber media, Sep. Purif. Technol., 30 (2003) 79–98.
18. C. Shin, G.G. Chase, Water-in-oil coalescence in micro-nanofiber composite fibers, AIChE J., 50 (2004) 343–350.
19. L. Raghuraman, Membrane material for brackish-water application for utilities—an evaluation, Desalination, 91 (1993) 155–162.
20. I. Koyuncu, M. Yazgan, Application of nanofiltration and reverse osmosis membranes to the salty and polluted surface water, J. Environ. Sci. Health Part A: Tox. /Hazard. Subst. Environ. Eng., 36 (2001) 1321–1333.
21. I.J. Roh, and V.P. Khare, Investigation of the specific role of chemical structure on the material and permeation properties of ultrathin aromatic polyamides, J. Mater.Chem., 12 (2002) 23–34.
22. A.P. Rao, S.V. Joshi, J.J. Trivedi, C.V. Devmurari, V.J. Shah, Structure–performance correlation of polyamide thin film composite membranes: effect of coating conditions on film formation, J. Membr. Sci., 211 (2003) 13.
23. C. Fritzmann, J. Löwenberg, T. Wintgens, T. Melin, State-of-the-art of reverse osmosis desalination, Desalination, 216 (2007) 1–76.
24. S. Kaur, D. Rana, T. Matsuura, S. Sundarrajan, S. Ramakrishna, Preparation and characterization of surface modified electrospun membranes for higher filtration flux, J. Membr. Sci., 390/391 (2012) 235–242.
25. S. Kaur, R. Barhate, S. Sundarrajan, T. Matsuura, S. Ramakrishna, Hot pressing of electrospun membrane composite and its influence on separation performance on thin film composite nanofiltration membrane, Desalination, 279 (2011) 201–209.
26. S. Kaur, S. Sundarrajan, D. Rana, T. Matsuura, S. Ramakrishna, Influence of electrospun fiber size on the separation efficiency of thin-film nanofiltration composite membrane. J. Membr. Sci., 392 (2012) 101–111.
27. K. Yoon, B.S. Hsiao, B. Chu, High flux nanofiltration membranes based on interfacially polymerized polyamide barrierlayer on polyacrylonitrile nanofibrous scaffolds, J. Membr. Sci., 326 (2009) 484–492.
28. X. Wang, T.M. Yeh, Z. Wang, R. Yang, R. Wang, et al. Nanofiltration membranes prepared by interfacial polymerization thin-film nanofibrous composite scaffold, Polymer, 55 (2014) 1358–1366.
29. L. Yung, H. Ma, X. Wang, K. Yoon, R. Wang, et al. Fabrication of thin-film nanofibrous composite membranes by interfacial polymerization using ionic liquids as additives, J. Membr. Sci., 365 (2010) 52–58.
30. L. Huang, S.S. Manickam, J.R. McCutcheon, increasing strength of electrospun nanofiber membranes for water filtration using solvent vapor, J. Membr. Sci., 436 (2013) 213–220.
31. K. Yoon, B.S. Hsiao, B. Chu, Formation of functional polyethersulfone electrospun membrane for water purification by mixed solvent and oxidation processes, Polymer, 50 (2009) 2893–2899.
32. R. Lo, A. Bhattacharya, B. Ganguly, Probing the selective salt rejection behavior of thin film composite membranes: A DFT study, J. Membr. Sci., 436 (2013) 90–96.
33. D.J. Mohan, and L. Kullová, A study on the relationship between preparation condition and properties/performance of polyamide TFC membrane by IR, DSC, TGA, and SEM techniques, Desalin. Water Treat., 51 (2013) 586–596.
34. S.A. Sundet, Multilayer reverse osmosis membrane in which one layer is poly-metaphenylene-cyclohexane-1,3,5-tricaboxamide, US Patent 4,643,829, February 1987.
35. S.Y. Kwak, S.G. Jung, S.H. Kim, Structure-motion-performance relationship of flux-enhanced reverse osmosis (RO) membranes composed of aromatic polyamide thin films, Environ. Sci. Technol., 35(2001) 4334–4340.
36. R. Ostermann, D. Li, Y. Yin, J.T. McCann, Y. Xia, V₂O₅ Nanorods on TiO₂ nanofibers: A new class of hierarchical nanostructures enabled by electrospinning and calcination, Nano Lett., 6 (2006) 1297–1302.
37. D. Kim, A. Rothschild, B.H. Lee, D.Y. Kim, S.M. Jo, H.L. Tuller, Ultrasensitive chemiresistors based on electrospun TiO₂ Nanofibers, Nano Lett., 6 (2006) 2009–2013.