1. M. Elimelech, W.A. Phillip, The future of seawater desalination: energy, technology, and the environment, Science, 333 (2011) 712–717.
  2. G.M. Geise, H.S. Lee, D.J. Miller, B.D. Freeman, J.E. McGrath, D.R. Paul, Water purification by membranes: the role of polymer science, J. Polym. Sci., Part B: Polym. Phys., 48 (2010) 1685–1718.
  3. H. Zhao, Q. Shi, L. Wu, L. Zhang, H. Chen, C. Gao, Improving the performance of polyamide reverse osmosis membrane by incorporation of modified multi-walled carbon nanotubes, J. Membr. Sci., 450 (2014) 249–256.
  4. M.E. Suk, A.V. Raghunathan, N.R. Aluru, Fast reverse osmosis using boron nitride and carbon nanotubes, Appl. Phys. Lett., 92 (2008), doi: 10.1063/1.2907333.
  5. W. Choi, J. Choi, J. Bang, J.H. Lee, Layer-by-layer assembly of graphene oxide nanosheets on polyamide membranes for durable reverse-osmosis applications, ACS Appl. Mater. Interfaces, 5 (2013) 12510–12519.
  6. J. Duan, Y. Pan, F. Pacheco, E. Litwiller, Z. Lai, I. Pinnau, Highperformance polyamide thin-film-nanocomposite reverse osmosis membranes containing hydrophobic zeolitic imidazolate framework-8, J. Membr. Sci., 476 (2015) 303–310.
  7. D. Cohen-Tanugi, J.C. Grossman, Nanoporous graphene as a reverse osmosis membrane: recent insights from theory and simulation, Desalination, 366 (2015) 59–70.
  8. K.A. Mahmoud, B. Mansoor, A. Mansour, M. Khraisheh, Functional graphene nanosheets: the next generation membranes for water desalination, Desalination, 356 (2015) 208–225.
  9. R.K. Joshi, S. Alwarappan, M. Yoshimura, V. Sahajwalla, Y. Nishina, Graphene oxide: the new membrane material, Appl. Mater. Today, 1 (2015) 1–12.
  10. L. Huang, M. Zhang, C. Li, G. Shi, Graphene-based membranes for molecular separation, J. Phys. Chem. Lett., 6 (2015) 2806–2815.
  11. D. Cohen-Tanugi, J.C. Grossman, Water desalination across nanoporous graphene, Nano Lett., 12 (2012) 3602–3608.
  12. S. Zinadini, A.A. Zinatizadeh, M. Rahimi, V. Vatanpour, H. Zangeneh, Preparation of a novel antifouling mixed matrix PES membrane by embedding graphene oxide nanoplates, J. Membr. Sci., 453 (2014) 292–301.
  13. J. Wang, X. Gao, J. Wang, Y. Wei, Z. Li, C. Gao, O-(carboxymethyl)- chitosan nanofiltration membrane surface functionalized with graphene oxide nanosheets for enhanced desalting properties, ACS Appl. Mater. Interfaces, 7 (2015) 4381–4389.
  14. H. Chae, J. Lee, C. Lee, I. Kim, P. Park, Graphene oxideembedded thin-film composite reverse osmosis membrane with high flux, anti-biofouling, and chlorine resistance, J. Membr. Sci., 483 (2015) 128–135.
  15. L. Shen, S. Xiong, Y. Wang, Graphene oxide incorporated thinfilm composite membranes for forward osmosis applications, Chem. Eng. Sci., 143 (2016) 194–205.
  16. M.E.A. Ali, L. Wang, X. Wang, X. Feng, Thin film composite membranes embedded with graphene oxide for water desalination, Desalination, 386 (2016) 67–76.
  17. Y. Si, E.T. Samulski, Synthesis of water soluble graphene, Nano Lett., 8 (2008) 1679–1682.
  18. H. Huang, Y. Mao, Y. Ying, Y. Liu, L. Sun, X. Peng, Salt concentration, pH and pressure controlled separation of small molecules through lamellar graphene oxide membranes, Chem. Commun., 49 (2013) 5963–5965.
  19. H. Huang, Z. Song, N. Wei, L. Shi, Y. Mao, Y. Ying, L. Sun, Z. Xu, X. Peng, Ultrafast viscous water flow through nanostrandchannelled graphene oxide membranes, Nat. Commun., 4 (2013) 2979–2987.
  20. Y. Han, Z. Xu, C. Gao, Ultrathin graphene nanofiltration membrane for water purification, Adv. Funct. Mater., 23 (2013) 3693–3700.
  21. R.R. Nair, H.A. Wu, P.N. Jayaram, I.V. Grigorieva, A.K. Geim, Unimpeded permeation of water through helium-leak − tight graphene-based membranes, Science, 335 (2012) 442–444.
  22. R.K. Joshi, P. Carbone, F.C. Wang, V.G. Kravets, Y. Su, I.V. Grigorieva, H.A. Wu, A.K. Geim, R.R. Nair, Precise and ultrafast molecular sieving through graphene oxide membranes, Science, 343 (2014) 752–754.
  23. 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. Purif. Technol., 160 (2016) 123–131.
  24. Y. Zhang, S. Zhang, J. Gao, T. Chung, Layer-by-layer construction of graphene oxide (GO) framework composite membranes for highly efficient heavy metal removal, J. Membr. Sci., 515 (2016) 230–237.
  25. M. Hu, B. Mi, Layer-by-layer assembly of graphene oxide membranes via electrostatic interaction, J. Membr., Sci., 469 (2014) 80–87.
  26. K. Huang, G. Liu, Y. Lou, Z. Dong, J. Shen, W. Jin, A graphene oxide membrane with highly selective molecular separation of aqueous organic solution, Angew. Chem. Int. Ed., 53 (2014) 6929–6932.
  27. K.H. Lee, J.H. Hong, S.J. Kwak, P. Min, J.G. Son, Spin self-assembly of highly ordered multilayers of graphene-oxide sheets for improving oxygen barrier performance of polyolefin films, Carbon, 83 (2015) 40–47.
  28. N. Wei, X. Peng, Z. Xu, Understanding water permeation in graphene oxide membranes, ACS Appl. Mater. Interfaces, 6 (2014) 5877–5883.
  29. D. Pacilé, J.C. Meyer, A. Fraile Rodríguez, M. Papagno, C. Gómez-Navarro, R.S. Sundaram, M. Burghard, K. Kern, C. Carbone, U. Kaiser, Electronic properties and atomic structure of graphene oxide membranes, Carbon, 49 (2011) 966–972.
  30. N.R. Wilson, P.A. Pandey, R. Beanland, R.J. Young, I.A. Kinloch, L. Gong, Z. Liu, K. Suenaga, J.P. Rourke, S.J. York, J. Sloan, Graphene oxide: structural analysis and application as a highly transparent support for electron microscopy, ACS Nano, 3 (2009) 2547–2556.
  31. R. Devanathan, D. Chasewoods, Y. Shin, D.W. Gotthold, Molecular dynamics simulations reveal that water diffusion between graphene oxide layers is slow, Sci. Rep., 6 (2016) 29484.
  32. J.A.L. Willcox, H.J. Kim, Molecular dynamics study of water flow across multiple layers of pristine, oxidized, and mixed regions of graphene oxide, ACS Nano, 11 (2017) 2187–2193.
  33. H. Dai, Z. Xu, X. Yang, Water permeation and ion rejection in layer-by-layer stacked graphene oxide nanochannels: a molecular dynamics simulation, J. Phys. Chem. C, 120 (2016) 22585–22596.
  34. D.W. Boukhvalov, M.I. Katsnelson, Y. Son, Origin of anomalous water permeation through graphene oxide membrane, Nano Lett., 13 (2013) 3930–3935.
  35. X. Peng, Z. Xu, N. Wei, Breakdown of fast water transport in graphene oxides, Phys. Rev. E, 89 (2014), doi: 10.1103/PhysRevE.89.012113
  36. W. Choi, K. Chun, J. Kim, C. Han, Ion transport through thermally reduced and mechanically stretched graphene oxide membrane, Carbon, 114 (2017) 377–382.
  37. A. Lerf, A. Buchsteiner, J. Pieper, S. Schöttl, I. Dekany, T. Szabo, H.P. Boehm, Hydration behavior and dynamics of water molecules in graphite oxide, J. Phys. Chem. Solids, 67 (2006) 1106–1110.
  38. K. Erickson, R. Erni, Z. Lee, N. Alem, W. Gannett, A. Zettl, Determination of the local chemical structure of graphene oxide and reduced graphene oxide, Adv. Mater., 22 (2010) 4467.
  39. L. Qiu, X. Zhang, W. Yang, Y. Wang, G.P. Simon, D. Li, Controllable corrugation of chemically converted graphene sheets in water and potential application for nanofiltration, Chem. Commun., 47 (2011) 5810–5812.
  40. Y. Zhao, C. Li, X. Fan, J. Wang, G. Yuan, X. Song, J. Chen, Z. Li, Study on the separation performance of the multi-channel reduced graphene oxide membranes, Appl. Surf. Sci., 384 (2016) 279–286.
  41. J. Zhu, L. Zhu, Z. Lu, L. Gu, S. Cao, X. Cao, Selectively expanding graphene oxide paper for creating multifunctional carbon materials, J. Phys. Chem. C, 116 (2012) 23075–23082.
  42. G. Shi, Q. Meng, Z. Zhao, H. Kuan, A. Michelmore, J. Ma, Facile fabrication of graphene membranes with readily tunable structures, ACS Appl. Mater. Interfaces, 7 (2015) 13745–13757.
  43. Y. Yuan, X. Gao, Y. Wei, X. Wang, J. Wang, Y. Zhang, C. Gao, Enhanced desalination performance of carboxyl functionalized graphene oxide nanofiltration membranes, Desalination, 405 (2017) 29–39.
  44. P. Sun, H. Liu, K. Wang, M. Zhong, D. Wu, H. Zhu, Selective ion transport through functionalized graphene membranes based on delicate ion–graphene interactions, J. Phys. Chem. C, 118 (2014) 19396–19401.
  45. D. Cohen-Tanugi, L. Lin, J.C. Grossman, Multilayer nanoporous graphene membranes for water desalination, Nano Lett., 16 (2016) 1027–1033.
  46. P. Sun, F. Zheng, M. Zhu, Z. Song, K. Wang, M. Zhong, D. Wu, R.B. Little, Z. Xu, H. Zhu, Selective trans-membrane transport of alkali and alkaline earth cations through graphene oxide membranes based on cation−π interactions, ACS Nano, 8 (2014) 850–859.
  47. W.S. Hummers Jr., R.E. Offeman, Preparation of graphitic oxide, J. Am. Chem. Soc., 80 (1958) 1339.
  48. Y. Wei, Y. Zhang, X. Gao, Y. Yuan, B. Su, C. Gao, Declining flux and narrowing nanochannels under wrinkles of compacted graphene oxide nanofiltration membranes, Carbon, 108 (2016) 568–575.
  49. C. Hontoria-Lucas, A.J. López-Peinado, J.D.D. López-González, M.L. Rojas-Cervantes, R.M. Martín-Aranda, Study of oxygencontaining groups in a series of graphite oxides: physical and chemical characterization, Carbon, 33 (1995) 1585–1592.
  50. S. Xia, M. Ni, T. Zhu, Y. Zhao, N. Li, Ultrathin graphene oxide nanosheet membranes with various d-spacing assembled using the pressure-assisted filtration method for removing natural organic matter, Desalination, 371 (2015) 78–87.
  51. J. Shen, M. Zhang, G. Liu, W. Jin, Facile tailoring of the twodimensional graphene oxide channels for gas separation, RSC Adv., 6 (2016) 54281–54285.
  52. S.J. Chae, F. Güneş, K.K. Kim, E.S. Kim, G.H. Han, S.M. Kim, H.J. Shin, S.M. Yoon, J.Y. Choi, M.H. Park, Synthesis of largearea graphene layers on poly‐nickel substrate by chemical vapor deposition: wrinkle formation, Adv. Mater., 21 (2009) 2328–2333.
  53. C. Vecchio, S. Sonde, C. Bongiorno, M. Rambach, R. Yakimova, V. Raineri, F. Giannazzo, Nanoscale structural characterization of epitaxial graphene grown on off-axis 4H-SiC (0001), Nanoscale Res. Lett., 6 (2011) 1–7.
  54. Y. Liu, C. Chen, Y. Li, X. Li, Q. Kong, M. Wang, Crumpled reduced graphene oxide by flame-induced reduction of graphite oxide for supercapacitive energy storage, J. Mater. Chem. A, 2 (2014) 5730–5737.
  55. X. Lin, X. Shen, Q. Zheng, N. Yousefi, L. Ye, Y. Mai, J. Kim, Fabrication of highly-aligned, conductive, and strong graphene papers using ultralarge graphene oxide sheets, ACS Nano, 6 (2012) 10708–10719.
  56. R.N. Wenzel, Resistance of solid surface to wetting by water, Ind. Eng. Chem., 28 (1936) 988–994.
  57. J. Muscatello, F. Jaeger, O.K. Matar, E.A. Müller, Optimizing water transport through graphene-based membranes: insights from nonequilibrium molecular dynamics, ACS Appl. Mater. Interfaces, 8 (2016) 12330–12336.
  58. D.D. Borges, C.F. Woellner, P.A. Autreto, D.S. Galvao, Water permeation through layered graphene-based membranes: a fully atomistic molecular dynamics investigation, arXiv Preprint, (2017) arXiv:1702.00250.
  59. J. Schaep, B. Van der Bruggen, C. Vandecasteele, D. Wilms, Influence of ion size and charge in nanofiltration, Sep. Purif. Technol., 14 (1998) 155–162.
  60. J. Peeters, J.P. Boom, M. Mulder, H. Strathmann, Retention measurements of nanofiltration membranes with electrolyte solutions, J. Membr. Sci., 145 (1998) 199–209.