References

  1. M.A. Shannon, P.W. Bohn, M. Elimelech, J.G. Georgiadis, B.J. Marinas, A.M. Mayes, Science and technology for water purification in the coming decades, Nature, 452 (2008) 301–310.
  2. T.S. Chung, L. Luo, C.F. Wan, Y. Cui, G. Amy, What is next for forward osmosis (FO) and pressure retarded osmosis (PRO), Sep. Sci. Technol., 156 (2015) 856–860.
  3. M.A. Darwish, H.K. Abdulrahim, A.S. Hassan, A.A. Mabrouk, A.O. Sharif, The forward osmosis and desalination, Desalin. Water Treat., 57 (2016) 4269–4295.
  4. B. Van der Bruggen, P. Luis, Forward osmosis: understanding the hype, Rev. Chem. Eng., 31 (2015) 1–12.
  5. X. Song, Z. Liu, D.D. Sun, Nano gives the answer: breaking the bottleneck of internal concentration polarization with a nanofiber composite forward osmosis membrane for a high water production rate, Adv. Mater., 23 (2011) 3256–3260.
  6. G.D. Vilakati, M.C.Y. Wong, E.M.V. Hoek, B.B. Mamba, Relating thin film composite membrane performance to support membrane morphology fabricated using lignin additive, J. Membr. Sci., 469 (2014) 216–224.
  7. M. Tian, C. Qiu, Y. Liao, S. Chou, R. Wang, Preparation of polyamide thin film composite forward osmosis membranes using electrospun polyvinylidene fluoride (PVDF) nanofibers as substrates, Sep. Sci. Technol., 118 (2013) 727–736.
  8. G. Li, X.M. Li, T. He, B. Jiang, C. Gao, Cellulose triacetate forward osmosis membranes: preparation and characterization, Desal. Water Treat., 51 (2013) 2656–2665.
  9. P.G. Ingole, W. Choi, K.H. Kim, H.D. Jo, W.K. Choi, J.S. Park, H.K. Lee, Preparation, characterization and performance evaluations of thin film composite hollow fiber membrane for energy generation, Desalination, 345 (2014) 136–145.
  10. C.Y.Y. Tang, Q.H. She, W.C.L. Lay, R. Wang, R. Field, A.G. Fane, Modeling double-skinned FO membranes, Desalination, 283 (2011) 178–186.
  11. S. Zhang, K.Y. Wang, T.S. Chung, H. Chen, Y. Jean, G. Amy, Well-constructed cellulose acetate membranes for forward osmosis: minimized internal concentration polarization with an ultra-thin selective layer, J. Membr. Sci., 360 (2010) 522–535.
  12. J. Su, T.S. Chung, Sublayer structure and reflection coefficient and their effects on concentration polarization and membrane performance in FO processes, J. Membr. Sci., 376 (2011) 214–224.
  13. Z.P. Smith, B.D. Freeman, Graphene oxide: a new platform for high-performance gas- and liquid-separation membranes, Angew. Chem. Int. Ed., 53 (2014) 10286–10288.
  14. Z. Jia, Y. Wang, Covalently crosslinked graphene oxide membranes by esterification reactions for ions separation, J. Mater. Chem. A, 3 (2015) 4405–4412.
  15. H. Huang, Y. Ying, X. Peng, Graphene oxide nanosheet: an emerging star material for novel separation membranes, J. Mater. Chem. A, 2 (2014) 13772–13782.
  16. S.G. Kim, D.H. Hyeon, J.H. Chun, B.H. Chun, S.H. Kim, Novel thin nanocomposite RO membranes for chlorine resistance, Desal. Water Treat., 51 (2013) 6338–6345.
  17. J. Lee, H.R. Chae, Y.J. Won, K. Lee, C.H. Lee, H.H. Lee, I.C. Kim, J.M. Lee, Graphene oxide nanoplatelets composite membrane with hydrophilic and antifouling properties for wastewater treatment, J. Membr. Sci., 448 (2013) 223–230.
  18. J. Zhang, Z. Xu, W. Mai, C. Min, B. Zhou, M. Shan, Y. Li, C. Yang, Z. Wang, X. Qian, Improved hydrophilicity, permeability, antifouling and mechanical performance of PVDF composite ultrafiltration membranes tailored by oxidized low-dimensional carbon nanomaterials, J. Mater. Chem. A, 1 (2013) 3101–3111.
  19. M. Ionita, E. Vasile, L.E. Crica, S.I. Voicu, A.M. Pandele, S. Dinescu, L. Predoiu, B. Galateanu, A. Hermenean, M. Costache, Synthesis, characterization and in vitro studies of polysulfone/graphene oxide composite membranes, Composites Part B, 72 (2015) 108–115.
  20. H.M. Hegab, A. ElMekawy, T.G. Barclay, A. Michelmore, L. Zou, C.P. Saint, M. Ginic-Markovic, Fine-tuning the surface of forward osmosis membranes via grafting graphene oxide: performance patterns and biofouling propensity, Acs App. Mater. Interface., 7 (2015) 18004–18016.
  21. Y.P. Tang, J.X. Chan, T.S. Chung, M. Weber, C. Staudt, C. Maletzko, Simultaneously covalent and ionic bridging towards antifouling of GO-imbedded nanocomposite hollow fiber membranes, J. Mater. Chem. A, 3 (2015) 10573–10584.
  22. D.C. Marcano, D.V. Kosynkin, J.M. Berlin, A. Sinitskii, Z. Sun, A. Slesarev, L.B. Alemany, W. Lu, J.M. Tour, Improved synthesis of graphene oxide, ACS Nano, 4 (2010) 4806–4814.
  23. R.C. Ong, T.S. Chung, Fabrication and positron annihilation spectroscopy (PAS) characterization of cellulose triacetate membranes for forward osmosis, J. Membr. Sci., 394 (2012) 230–240.
  24. W. Pusch, R. Riley, Relation between salt rejection r and reflection coefficient σ of asymmetric cellulose acetate membranes, Desalination, 14 (1974) 389–393.
  25. S. Loeb, L. Titelman, E. Korngold, J. Freiman, Effect of porous support fabric on osmosis through a Loeb-Sourirajan type asymmetric membrane, J. Membr. Sci., 129 (1997) 243–249.
  26. L. Yu, Y. Zhang, B. Zhang, J. Liu, H. Zhang, C. Song, Preparation and characterization of HPEI-GO/PES ultrafiltration membrane with antifouling and antibacterial properties, J. Membr. Sci., 447 (2013) 452–462.
  27. M.J. Park, S. Phuntsho, T. He, G.M. Nisola, L.D. Tijing, X.M. Li, G. Chen, W.J. Chung, H.K. Shon, Graphene oxide incorporated polysulfone substrate for the fabrication of flat-sheet thin-film composite forward osmosis membranes, J. Membr. Sci., 493 (2015) 496–507.
  28. H. Wu, B. Tang, P. Wu, Development of novel SiO2–GO nanohybrid/polysulfone membrane with enhanced performance, J. Membr. Sci., 451 (2014) 94–102.
  29. Y. Wang, R. Ou, H. Wang, T. Xu, Graphene oxide modified graphitic carbon nitride as a modifier for thin film composite forward osmosis membrane, J. Membr. Sci., 475 (2015) 281–289.
  30. R. Abedini, S.M. Mousavi, R. Aminzadeh, A novel cellulose acetate (CA) membrane using TiO2 nanoparticles: Preparation, characterization and permeation study, Desalination, 277 (2011) 40–45.
  31. M. Ionita, E. Vasile, L.E. Crica, S.I. Voicu, A.M. Pandele, S. Dinescu, L. Predoiu, B. Galateanu, A. Hermenean, M. Costache, Synthesis, characterization and in vitro studies of polysulfone/graphene oxide composite membranes, Composites Part B, 72 (2015) 108–115.
  32. O. Arous, H. Kerdjoudj, P. Seta, Comparison of carrier-facilitated silver (i) and copper (ii) ions transport mechanisms in a supported liquid membrane and in a plasticized cellulose triacetate membrane, J. Membr. Sci., 241 (2004) 177–185.
  33. M. Amini, A. Rahimpour, M. Jahanshahi, Forward osmosis application of modified TiO2-polyamide thin film nanocomposite membranes, Desal. Water Treat., 57 (2016) 14013–14023.
  34. N. Misdan, A.F. Ismail, N. Hilal, Recent advances in the development of (bio)fouling resistant thin film composite membranes for desalination, Desalination, 380 (2016) 105–111.
  35. A. Zirehpour, A. Rahimpour, F. Seyedpour, M. Jahanshahi, Developing new CTA/CA-based membrane containing hydrophilic nanoparticles to enhance the forward osmosis desalination, Desalination, 371 (2015) 46–57.
  36. M. Wada, R. Hori, X-Ray Diffraction Study of the Thermal Expansion Behavior of Cellulose Triacetate I, J. Polym. Sci. B, 47 (2009) 517–523.
  37. D. Galpaya, M. Wang, M. Liu, N. Motta, E. Waclawik, C. Yan, Recent advances in fabrication and characterization of graphene-polymer nanocomposites, Graphene, 1 (2012) 30–49.
  38. T.S. Chung, L.Y. Jiang, Y. Li, S. Kulprathipanja, Mixed matrix membranes (MMMs) comprising organic polymers with dispersed inorganic fillers for gas separation, Prog. Polym. Sci., 32 (2007) 483–507.
  39. L.A. Hoover, J.D. Schiffman, M. Elimelech, Nanofibers in thin-film composite membrane support layers: Enabling expanded application of forward and pressure retarded osmosis, Desalination, 308 (2013) 73–81.
  40. W.C.L. Lay, J. Zhang, C. Tang, R. Wang, Y. Liu, A.G. Fane, Analysis of Salt Accumulation in a Forward Osmosis System, Sep. Sci. Technol., 47 (2012) 1837–1848.
  41. W. Gao, H. Liang, J. Ma, M. Han, Z.l. Chen, Z.S. Han, G.B. Li, Membrane fouling control in ultrafiltration technology for drinking water production: A review, Desalination, 272 (2011) 1–8.
  42. T.Y. Cath, M. Elimelech, J.R. McCutcheon, R.L. McGinnis, A. Achilli, D. Anastasio, A.R. Brady, et al., Standard methodology for evaluating membrane performance in osmotically driven membrane processes, Desalination, 312 (2013) 31–38.
  43. X. Wang, B. Yuan, Y. Chen, X. Li, Y. Ren, Integration of micro-filtration into osmotic membrane bioreactors to prevent salinity build-up, Bioresour. Technol., 167 (2014) 116–123.
  44. W.K. Zhu, H.P. Cong, H.B. Yao, L.B. Mao, A.M. Asiri, K.A. Alamry, H.M. Marwani, S.H. Yu, Bioinspired, ultrastrong, highly biocompatible, and bioactive natural polymer/graphene oxide nanocomposite films, Small, 11 (2015) 4298–4302.
  45. W. Luo, F.I. Hai, W.E. Price, L.D. Nghiem, Water extraction from mixed liquor of an aerobic bioreactor by forward osmosis: Membrane fouling and biomass characteristics assessment, Sep. Sci. Technol., 145 (2015) 56–62.
  46. D.D. Kaombe, M.B. Hagg, Forward osmosis for the dewatering of pyrolysis oil aqueous phase, Sep. Sci. Technol., 138 (2014) 92–97.
  47. P. Zhao, B. Gao, Q. Yue, H.K. Shon, Q. Li, Fouling of forward osmosis membrane by protein (BSA): effects of pH, calcium, ionic strength, initial permeate flux, membrane orientation and foulant composition, Desal. Water Treat., 57 (2016) 13415–13424.
  48. L. Wang, N. Wang, J. Li, J. Li, W. Bian, S. Ji, Layer-by-layer self-assembly of polycation/GO nanofiltration membrane with enhanced stability and fouling resistance, Sep. Sci. Technol., 160 (2016) 123–131.
  49. D. Qin, Z. Liu, D.D. Sun, X. Song, H. Bai, A new nanocomposite forward osmosis membrane custom-designed for treating shale gas wastewater, Sci. Rep.-UK, 5 (2015) 1–13.