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Desalination and Water Treatment Volume 15, 2010 - Issue 1-3
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Original Articles

Enhancement of Chlorine Resistance in Carbon Nanotube Based Nanocomposite Reverse Osmosis Membranes

Junwoo Park Department of Chemical & Biological Engineering, Korea University
,
Wansuk Choi Department of Chemical & Biological Engineering, Korea University
,
Sung Hyun Kim Department of Chemical & Biological Engineering, Korea University
,
Byung Hee Chun Department of Chemical & Biological Engineering, Korea University
,
Joona Bang Department of Chemical & Biological Engineering, Korea University
&
Ki Bong Lee Department of Chemical & Biological Engineering, Korea University
Pages 198-204 | Received 12 Nov 2009, Accepted 24 Dec 2009, Published online: 03 Aug 2012

References

  • Tang , C. Y. , Kwon , Y.-N. and Leckie , J. O. 2009 . Effect of membrane chemistry and coating layer on physiochemical properties of thin film composite polyamide RO and NF membranes: I. FTIR and XPS characterization of polyamide and coating layer chemistry . Desalination , 242 : 149 – 167 .
  • Petersen , R. J. 1993 . Composite reverse osmosis and nanofiltration membranes . J. Membr. Sci. , 83 : 81 – 150 .
  • Bartels , C. R. , Wilf , M. , Andes , K. and long , J. 2005 . Design considerations for wastewater treatment by reverse osmosis . Water. Sci. Technol. , 51 : 473 – 482 .
  • Leung , K. 2008 . Ion-dipole interactions are asymptotically unscreened by water in dipolar nanopores, yielding patterned ion distributions . J. Am. Chem. Soc. , 130 : 1808 – 1809 .
  • Loeb , S. and Sourirajan , S. 1962 . UCLA Department of Engineering Report 60-60
  • Baker , R. W. 2004 . Membrane Technology and Application , New York : Wiley .
  • Lonsdale , H. K. 1973 . Recent advances in reverse osmosis membranes . Desalination , 13 : 317 – 332 .
  • Araki , J. and Kuga , S. 2001 . Effect of trace electrolyte on liquid crystal type of cellulose microcrystals . Langmuir , 17 : 4493 – 4496 .
  • Singh , R. 1994 . Polyamide polymer solution behavior under chlorination conditions . J. Membr. Sci. , 88 : 285 – 287 .
  • Kurihara , M. , Uemura , T. , Himeshima , Y. , Ueno , K. and Bairinji , R. 1994 . Development of crosslinked aromatic polyamide composite reverse osmosis membrane . J. Chem. Soc. Jpn. , 2 : 97 – 107 .
  • Bradfield , A. E. , Cooper , L. H. N. and Orton , K. J. P. 1927 . CCCLXXXII — The halogenation of p-hydroxydiphenylamine. Part II . J. Chem. Soc. , : 2854 – 2864 .
  • Kershner L. D. , Reineke C. E. , Sarkar N. and Wilson L. R. , Water-insoluble, crosslinked, sulfonated aromatic polyamide , US Patent 4,824,916 , 1986 .
  • Buch , P. R. , Mohan , D. J. and Reddy , A. V. R. 2008 . Preparation, characterization and chlorine stability of aromatic-cycloaliphatic polyamide thin film composite membranes . J. Membr. Sci. , 309 : 36 – 44 .
  • Konagaya , S. , Nita , K. , Matsui , Y. and Miyagi , M. 2001 . New chlorine-resistant polyamide reverse osmosis membrane with hollow fiber configuration . J. Appl. Polym. Sci. , 79 : 517 – 527 .
  • Konagaya , S. , Kuzumoto , H. and Watanabe , O. 2000 . New reverse osmosis membrane materials with higher resistance to chlorine . J. Appl. Polym. Sci. , 75 : 1357 – 1364 .
  • Glater , J. , Hong , S.-K. and Elimelech , M. 1994 . The search for a chlorine-resistant reverse osmosis membrane . Desalination , 95 : 325 – 343 .
  • Jeong , B.-H. , Hoek , E. M. V. , Yan , Y. , Subramani , A. , Huang , X. , Hurwitz , G. , Ghosh , A. K. and Jawor , A. 2007 . Interfacial polymerization of thin film nanocomposites: A new concept for reverse osmosis membranes . J. Membr. Sci. , 294 : 1 – 7 .
  • Lianchao , L. , Baoguo , W. , Huimin , T. , Tianlu , C. and Jiping , X. 2006 . A novel nanofiltration membrane prepared with PAMAM and TMC by in situ interfacial polymerization on PEK-C ultrafiltration membrane . J. Membr. Sci. , 269 : 84 – 93 .
  • Zhou , M. , Nemade , P. R. , Lu , X. , Zheng , X. , Hatakeyama , E. S. , Noble , R. D. and Gin , D. L. 2007 . New type of membrane material for water desalination based on a cross-linked bicontinuous cubic lyotropic liquid crystal assembly . J. Am. Chem. Soc. , 129 : 9574 – 9575 .
  • Sint , K. , Wang , B. and Král , P. 2008 . Selective ion passage through functionalized graphene nanopores . J. Am. Chem. Soc. , 130 : 16448 – 16449 .
  • Corry , B. 2008 . Designing carbon nanotube membranes for efficient water desalination . J. Phys. Chem. B , 112 : 1427 – 1434 .
  • Baughman , R. H. , Zakhidov , A. A. and De Heer , W. A. 2002 . Carbon nanotubes — the route toward applications . Science , 297 : 787 – 792 .
  • Yakobson , B. I. and Smalley , R. E. 1997 . Fullerene nanotubes: C1,000,000 and beyond . Am. Sci. , 85 : 324 – 337 .
  • Ajayan , P. M. 1999 . Nanotubes from carbon . Chem. Rev. , 99 : 1787 – 1800 .
  • Javey , A. 2003 . Ballistic carbon nanotube field-effect transistors . Nature , 424 : 654 – 657 .
  • Arnold , M. S. , Green , A. A. , Hulvat , J. F. , Stupp , S. I. and Hersam , M. C. 2006 . Sorting carbon nanotubes by electronic structure using density differentiation . Nature Nanotechnol. , 1 : 60 – 65 .
  • Naeemi , A. R. , Sarvari , R. and Meindl , J. D. 2005 . Performance comparison between carbon nanotube and copper interconnects for gigascale integration (GSI) . IEEE Electron. Device Lett. , 26 : 84 – 86 .
  • Mark , H. F. , Bikales , N. , Overberger , C. G. , Menges , G. and Kroschwitz , J. I. 1985 . Encyclopedia of Polymer Science and Engineering , 2 , Vol. 8 , New York : Wiley .
  • Couvreur , P. , Barratt , G. , Fattal , E. , Legrande , P. and Vauthier , C. 2002 . Nanocapsule technology: a review . Crit. Rev. Therap. Drug Carrier Systems , 19 : 99 – 134 .
  • Fan , S.-S. , L Jiang , K.- , Liu , L. , Feng , C. and Zhang , X.-B. 2008 . Carbon nanotube film structure and method for fabricating the same . US20080248235
  • Cicero , G. , Grossman , J. C. , Schwegler , E. , Gygi , F. and Galli , G. 2008 . Water confined in nanotubes and between graphene sheets: A first principle study . J. Am. Chem. Soc. , 130 : 1871 – 1878 .
  • Gusev , A. A. and Guseva , O. 2007 . Rapid mass transport in mixed matrix nanotube/polymer membranes . Adv. Mater. , 19 : 2672 – 2676 .
  • Joseph , S. and Aluru , N. R. 2008 . Why are carbon nanotubes fast transporters of water? . Nano Lett. , 8 : 452 – 458 .
  • Longhurst , M. J. and Quirke , N. 2007 . Temperature-driven pumping of fluid through single-walled carbon nanotubes . Nano Lett. , 7 : 3324 – 3328 .
  • Schierz , A. and Zänker , H. 2009 . Aqueous suspensions of carbon nanotubes: surface oxidation, colloidal stability and uranium sorption . Environ. Pollut. , 157 : 1088 – 1094 .
  • McJilton , L. , Horton , C. , Kittrell , C. , Ogrin , D. , Peng , H. , Liang , F. , Billups , W. E. , Schmidt , H. K. , Hauge , R. H. , Smalley , R. E. and Barron , A. R. 2009 . Nebulization of single-walled carbon nanotubes for respiratory toxicity studies . Carbon , 47 : 2528 – 2530 .

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