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Fullerenes, Nanotubes and Carbon Nanostructures Volume 21, 2013 - Issue 7
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Original Articles

Adsorption of Acid Blue 161 (AB 161) Dye from Water by Multi-walled Carbon Nanotubes

Feza Geyikçi Department of Chemical Engineering, Faculty of Engineering, Ondokuz Mayıs University, Samsun, TurkeyCorrespondence[email protected]
Pages 579-593 | Published online: 02 Jan 2013

References

  • Sheng , G. , Li , J. , Shao , Hu, D. , Chen , J.C. , Chen , Y. and Wang , X. 2010 . Adsorption of copper (II) on multi-walled carbon nanotubes in the absence and presence of humic or fulvic acids . J. Hazard. Mater. , 178 : 333 – 340 .
  • Yang , S. , Li , J. , Shao , D. , Hu , J. and Wang , X. 2009 . Adsorption of Ni(II) on oxidized multi-walled carbon nanotubes: Effect of contact time, pH, foreign ions and PAA . J. Hazard. Mater. , 166 : 109 – 116 .
  • Rao , G.P. , Lu , C. and Su , F. 2007 . Sorption of divalent metal ions from aqueous solutions by carbon nanotubes: A review . Separation and Purification Technology , 58 : 224 – 231 .
  • Firme , C.P. and Bandaru , P.R. 2010 . Toxicity issues in the application of carbon nanotubes to biological systems . Nanomedicine: Nanotechnology, Biology and Medicine , 6 : 245 – 256 .
  • Sheng , G.D. , Shao , D.D. , Ren , X.M. , Wang , X.Q. , Li , J.X. , Chen , Y.X. and Wang , X.K. 2010 . Kinetics and thermodynamics of adsorption of ionizable aromatic compounds from aqueous solutions by as-prepared and oxidized multi-walled carbon . J. Hazard. Mater. , 178 : 505 – 516 .
  • Chatterjee , S. , Lee , M.W. and Woo , S.H. 2010 . Adsorption of congo red by chitosan hydrogel beads impregnated with carbon nanotubes . Bioresource Technol. , 101 : 1800 – 1806 .
  • Wang , S.G. , Gong , W.X. , Liu , X.W. , Yao , Y.W. , Gao , B.Y. and Yue , Q.Y. 2007 . Removal of lead (II) from aqueous solution by adsorption onto manganese oxide-coated carbon nanotubes . Separation and Purification Technology , 58 : 17 – 23 .
  • Ye , C. , Gong , Q.M. , Lu , F.P. and Liang , J. 2007 . Adsorption of ureamic toxins on carbon nanotubes . Separation and Purification Technology , 58 : 2 – 6 .
  • Perez , L.M.R. , Herrera , A.V.H. , Borges , J.H. and Delgado , M.A.R. 2010 . Carbon nanotubes: Solid-phase extraction . J. Chromatography A , 1217 : 2618 – 2641 .
  • Upadhyayula , V.K.K. , Deng , S. , Mitchell , M.C. and Smith , G.B. 2009 . Application of carbon nanotubes technology for removal of contaminants in drinking water: A review . Science of the Total Environment , 408 : 1 – 13 .
  • Kuo , C.Y. , Wu , C.H. and Wu , J.Y. 2008 . Adsorption of direct dyes from aqueous solutions by carbon nanotubes: Determination of equilibrium, kinetics and thermodynamics parameters . J. Colloid Interface Sci. , 327 : 308 – 315 .
  • Gong , J.L. , Wang , B. , Zeng , G.M. , Yang , C.P. , Niu , C.G. , Niu , Q.Y. , Zhou , W.J. and Liang , Y. 2009 . Removal of cationic dyes from aqueous solution using magnetic multi-wall carbon nanotubes nanocomposite as adsorbent . J. Hazard. Mater. , 164 : 1517 – 1522 .
  • Qu , S. , Huang , F. , Yu , S. , Chen , G. and Kong , J. 2008 . Magnetic removal of dyes from aqueous solution using multi-walled carbon nanotubes filled with Fe2O3 particles . J. Hazard. Mater. , 160 : 643 – 647 .
  • Alpat , S.K. , Özbayrak , Ö. , Alpat , Ş. and Akçay , H. 2008 . The adsorption kinetics and removal of cationic dye, Toluidine Blue O, from aqueous solution with Turkish zeolite . J. Hazard. Mater. , 151 : 213 – 220 .
  • İyim , T.B. and Güçlü , G. 2009 . Removal of basic dyes from aqueous solutions using natural clay . Desalination , 249 : 1377 – 1379 .
  • Aber , S. , Daneshvar , N. , Soroureddin , S.M. , Chabok , A. and Zeynali , K.A. 2007 . Study of acid orange 7 removal from aqueous solutions by powdered activated carbon and modeling of experimental results by artificial neural network . Desalination , 211 : 87 – 95 .
  • Lin , J.X. , Zhan , S.L. , Fang , M.H. , Qian , X.Q. and Yang , H. 2008 . Adsorption of basic dye from aqueous solution onto fly ash . Journal of Environmental Management , 87 : 193 – 200 .
  • Çoruh , S. , Geyikçi , F. and Ergun , O.N. 2011 . Adsorption of basic dye from wastewater using raw and activated red mud . Environmental Technology , 32 : 1183 – 1193 .
  • Eren , E. 2009 . Investigation of a basic dye removal from aqueous solution onto chemically modified Unye bentonite . J. Hazard. Mater. , 166 : 88 – 93 .
  • Uğurlu , M. 2009 . Adsorption of a textile dye onto activated sepiolite . Microporous and Mesoporous Mater. , 119 : 276 – 283 .
  • Al-Qodah , Z. , Lafi , W.K. , Al- Anber , Z. , Al-Shannag , M. and Harahsheh , A. 2007 . Adsorption of methylene blue by acid and heat treated diatomaceous silica . Desalination , 217 : 212 – 224 .
  • Pavan , F.A. , Mazzocato , A.C. and Gushikem , Y. 2008 . Removal of methylene blue dye from aqueous solutions by adsorption using yellow passion fruit peel as adsorbent . Bioresource Technology , 99 : 3162 – 3165 .
  • Aksu , Z. , Tatlı , A.İ. and Tunç , Ö. 2008 . A comparative adsorption/biosorption study of Acid Blue 161: Effect of temperature on equilibrium and kinetic parameters . Chem. Eng. J. , 142 : 23 – 39 .
  • Ofomaja , A.E. 2008 . Kinetics study and sorption mechanism of methylene blue and methyl violet onto mansonia (Mansonia altissima) wood sawdust . Chemical Engineering Journal , 143 : 85 – 95 .
  • Özer , A. , Akkaya , G. and Turabik , M. 2006 . Biosorption of Acid Blue 290 (AB 290) and Acid Blue 324 (AB 324) dyes on Spirogya rhizopus . J. Hazard. Mater. B , 135 : 355 – 364 .
  • Tong , D.S. , Zhou , C.H. , Lu , Y. , Yu , H. , Zhang , G.F. and Yu , W.H. 2010 . Adsorption of acid red G dye on octadecyl trimethylammonium montmorillonite . Applied Clay Science , 50 : 427 – 431 .
  • Li , X. , Qu , M. and Yu , Z. 2010 . Preparation and electrochemical performance of Li4Ti5O12/Graphitized carbon nano-tubes composite . Solid State Ionics , 181 : 635 – 639 .
  • Lu , C. and Su , F. 2007 . Adsorption of natural organic matter by carbon nanotubes . Separation and Purification Technology , 58 : 113 – 121 .
  • Han , R. , Han , P. , Cai , Z. , Zhao , Z. and Tang , M. 2008 . Kinetics and isotherms of Neutral Red adsorption on peanut husk . Journal of Environmental Sciences , 20 : 1035 – 1041 .
  • Kandah , M.I. and Meunier , J.L. 2007 . Removal of nickel ions from water by multi-walled carbon nanotubes . J. Hazard. Mater. , 146 : 283 – 288 .
  • Hu , J. , Li , S. and Liu , B. 2005 . Adsorption of BSA onto sulfonated microspheres . Biochem. Eng. J. , 23 : 259 – 263 .
  • Erdem , M. , Altundoğan , H.S. and Tümen , F. 2004 . Removal of hexavalent chromium by heat-activated bauxite . Minerals Engineering , 17 : 1045 – 1052 .
  • Yang , S.Y. , Hu , J. , Chen , C. , Shao , D. and Wang , X. 2011 . Mutual effects of Pb(II) and humic acid adsorption on multi-walled carbon nanotubes/polyacrylamide composites from aqueous solutions . Environmental Science and Technology , 45 : 3621 – 3627 .
  • Johnson , R.D. and Arnold , F.H. 1995 . The Temkin isotherm describes heterogeneous protein adsorption . Biochimia et Biophysica Acta , 1247 : 293 – 297 .
  • Anwar , J. , Shafique , U. , Salman , M. , Zaman , W. , Anwar , S. and Anzano , J.M. 2009 . Removal of chromium (III) by using coal as adsorbent . J. Hazard. Mater , 171 : 797 – 801 .
  • Tor , A. , Cengeloğlu , Y. and Ersoz , M. 2009 . Increasing the phenol adsorption capacity of neutralized red mud by application of acid activation procedure . Desalination , 242 : 19 – 28 .
  • Tofighy , M.A. and Mohammadi , T. 2010 . Adsorption of divalent heavy metal ions from water using carbon nanotubes sheet . J. Hazard. Mater. , 185 : 140 – 147 .
  • Jabli , M. , Baouab , M.H.V. , Roudesli , M.S. and Bartegi , A. 2011 . Adsorption of acid dyes from aqueous solution on a chitosan-cotton composite material prepared by a new pad-dry process . Journal of Engineered Fibers and Fabrics , 6 : 1 – 12 .
  • Nethaji , S. and Sivasamy , A. 2011 . Adsorptive removal of an acid dye by lignocellulosic waste biomass activated carbon: Equilibrium and kinetic studies . Chemosphere , 82 : 1367 – 1372 .
  • Yang , Y. , Wang , J.G. , Wang , S. , Liu , D. , Jia , X. and Zhao , Y. 2011 . Competitive biosorption of Acid Blue 25 and Acid Red 337 onto unmodified and CDAB-modified biomass of Aspergillus oryzae . Bioresource Technology , 102 : 7429 – 7436 .
  • Renault , F. , Crini , N.M. , Gimbert , F. , Badot , P.M. and Crini , G. 2008 . Cationized starch-based material as a new ion-exchanger adsorbent for the removal of C.I. Acid Blue 25 from aqueous solutions . Bioresource Technology , 99 : 7573 – 7586 .
  • Yang , Y. , Jin , D. , Wang , G. , Liu , D. , Jia , X. and Zhao , Y. 2011 . Biosorption of Acid Blue 25 by unmodified and CPC-modified biomass of Penicillium YW01: Kinetic study, equilibrium isotherm and FTIR analysis . Colloids and Surfaces B: Biointerfaces , 88 : 521 – 526 .
  • Auxilio , A.R. , Andrews , P.C. , Junk , P.C. , Spiccia , L. , Neumann , D. , Raverty , W. and Vanderhoek , N. 2007 . Adsorption and intercalation of acid blue 9 on Mg–Al layered double hydroxides of variable metal composition . Polyhedron , 26 : 3479 – 3490 .
  • Dotto , G.L. and Pinto , L.A.A. 2011 . Adsorption of food dyes acid blue 9 and food yellow 3 onto chitosan: Stirring rate effect in kinetics and mechanism . J. Hazard. Mater. , 187 : 164 – 170 .
  • Atar , N. and Olgun , A. 2009 . Removal of basic and acid dyes from aqueous solutions by a waste containing boron impurity . Desalination , 249 : 109 – 115 .
  • Attia , A.A. , Rashwan , W.E. and Khedr , S.A. 2006 . Capacity of activated carbon in the removal of acid dyes subsequent to its thermal treatment . Dyes Pigments , 69 : 128 – 136 .

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