Multiwalled carbon nanotubes (MWCNTs) were physically mixed with biopolymer chitin and magnetite to form a magnetic nanocomposite. The produced MWCNTS/chitin/magnetite (MCM) nanocomposite was characterized using scanning electron microscopy and surface-area analysis, and the magnetic properties were measured using a vibrating-sample magnetometer. The results revealed homogenous distribution of the chitin and magnetite nanoparticles within the MWCNTs in the MCM nanocomposite. The MCM nanocomposite was used to study the removal/adsorption of the well-known organic dye Rose Bengal (RB). The effect of different adsorption parameters was studied and optimized. The adsorption process was studied at different temperatures and the results were analyzed kinetically. Results revealed that the adsorption followed the pseudo-second-order kinetic model. Also, it was found that the adsorption of RB occurred in different steps including the diffusion of RB through the boundary layer to the external surface of the MCM nanocomposite, intraparticle diffusion, and adsorption of RB through the MCM nanocomposite particles. The adsorption was analyzed thermodynamically and results revealed spontaneity of the adsorption as the DG8 value was negative and endothermic in nature as the DH8 value was positive, and associated with the increase in the randomness as the DS8 value was positive.

1 S. Lagergren, "Zur theorie der sogenannten adsorption gel.oster Stoffe,(About the theory of so-called adsorption of soluble substances)" 24 : 1-39, 1898

2 G. E. Boyd, "The exchange adsorption of ions from aqueous solutions by organic zeolites II kinetics" 69 : 2836-2848, 1947

3 M. Abdel Salam, "Solid phase extraction and determination of poly halogenated pollutants from freshwater using novel chemically modified multiwalled carbon nanotubes using gas chromatography" 32 : 1060-1068, 2009

4 J. N. Coleman, "Small but strong: a review of the mechanical properties of carbon nanotube—polymer composites" 44 : 1624-1652, 2006

5 M. Abdel Salam, "Simultaneous removal of copper(II), lead(II), zinc(II), and cadmium(II) from aqueous solutions by multi-walled carbon nanotubes" 15 : 398-408, 2012

6 W-W. Tang, "Simultaneous adsorption of atrazine and Cu (II) from wastewater by magnetic multi-walled carbon nanotube" 211–212 (211–212): 470-478, 2012

7 W-W. Tang, "Simultaneous adsorption of atrazine and Cu (II) from wastewater by magnetic multi-walled carbon nanotube" 211–212 : 470-478, 2012

8 D. K. V. Ramana, "Silver nanoparticles deposited multiwalled carbon nanotubes for removal of Cu(II) and Cd(II) from water: surface, kinetic, equilibrium, and thermal adsorption properties" 223 : 806-815, 2013

9 T. S¸ is¸ manog˘lu, "Removal of some fungicides from aqueous solution by the biopolymer chitin" 297 : 38-45, 2007

10 L. Ai, "Removal of methylene blue from aqueous solution with magnetite loaded multi-wall carbon nanotube:kinetic, isotherm, and mechanism analysis" 198 : 282-290, 2011

11 G. D. Vukovic´, "Removal of lead from water by amino modified multiwalled carbon nanotubes" 173 : 855-865, 2011

12 H. Nollet, "Removal of PCBs from wastewater using fly ash" 53 : 655-665, 2003

13 W. Rudzinski, "Remarks on the current state of adsorption kinetic theories for heterogeneous solid surfaces: a comparison of the ART and the SRT approaches" 18 : 439-449, 2002

14 H. Y. Zhu, "Preparation, characterization, adsorption kinetics and thermodynamics of novel magnetic chitosan enwrapping nanosized g-Fe2O3 and multi-walled carbon nanotubes with enhanced adsorption properties for methyl orange" 101 : 5063-5069, 2010

15 M. Abdel Salam, "Preparation and characterization of multi-walled carbon nanotubes/chitosan nanocomposite and their application as ion exchanging materials" 509 : 2582-2587, 2011

16 M. Abdel Salam, "Preparation and characterization of magnetic multi-walled carbon nanotubes/ferrite composite and their application for the removal of organic pollutants from aqueous solution" 161 : 2651-2658, 2012

17 A. E. Shanahan, "Preparation and characteri-zation of a composite of gold nanoparticles and single-walled carbon nanotubes and its potential for heterogeneous catalysis" 26 : 347-355, 2011

18 W. Rudzinski, "On the applicability of the pseudo-second order equation to represent the kinetics of adsorption at solid/solution interfaces: a theoretical analysis based on the statistical rate theory" 15 : 181-192, 2009

19 M. Abdel Salam, "Novel application of modified multi-walled carbon nanotubes as a solid-phase extraction adsorbent for the determination of polyhalogenated organic pollutants in aqueous solution" 390 : 2159-2170, 2008

20 P. Liang, "Multiwalled carbon nanotubes as solid-phase extraction adsorbent for the preconcentration of trace" 19 : 1489-1492, 2004

21 J. Denga, "Multiwalled carbon nanotubes as adsorbents for removal of herbicide diuron from aqueous solution" 193–194 : 339-347, 2012

22 L. Zhang, "Multi-walled carbon nanotubes as sorbent for recovery of endocrine disrupting compound-bisphenol F from wastewater" 218 : 238-246, 2013

23 W. J. Weber, "Kinetics of adsorption on carbon from solution" 89 : 31-60, 1963

24 H. Al-Johani, "Kinetics and thermodynamic study of aniline adsorption by multi-walled carbon nanotubes from aqueous solution" 360 : 760-767, 2011

25 S. Fatemi, "Improving CO2/CH4 adsorptive selectivity of carbon nanotubes by functionalization with nitrogen-containing groups" 89 : 1669-1675, 2011

26 J. Duan, "Halloysite nanotube-Fe3O4 composite for removal of methyl violet from aqueous solutions" 293 : 46-52, 2012

27 A. Y. Dursun, "Equilibrium, kinetic and thermodynamic studies on the adsorption of phenol onto chitin" 123 : 151-157, 2005

28 Y-C. Chiang, "Effects of surface chemical states of carbon nanotubes supported Pt nanoparticles on performance of proton exchange membrane fuel cells" 36 : 6826-6831, 2011

29 R. C. Dalal, "Desorption of soil phosphate by anion exchange resin" 5 : 531-538, 1974

30 M. Ghaedi, "Comparison of removal of bromothymol blue from aqueous solution by multiwalled carbon nanotube and Zn(OH)2 nanoparticles loaded on activated carbon: A thermodynamic study" 한국공업화학회 19 (19): 1493-1500, 2013

31 Y. Zemen, "Comparison of new conductive adhesives based on silver and carbon nanotubes for solar cells interconnection" 109 : 155-159, 2013

32 M. Abdel Salam, "Coating carbon nanotubes with crystalline manganese dioxide nanoparticles and their application for lead ions removal from model and real water" 419 : 69-79, 2013

33 V. K. Gupta, "Chromium removal by combining the magnetic properties of iron oxide with adsorption properties of carbon nanotubes" 45 : 2207-2212, 2011

34 P. R. Chang, "Characterization of magnetic soluble starch-functionalized carbon nanotubes and its application for the adsorption of the dyes" 186 : 2144-2150, 2011

35 L. Yan, "Characterization of magnetic guar gum-grafted carbon nanotubes and the adsorption of the dyes" 87 : 1919-1924, 2012

36 V. Sgobba, "Carbon nanotubes—electronic/electrochemical properties and application for nanoelectronics and photonics" 38 : 165-184, 2009

37 S. Peretz, "Carbon nanotubes as nanocarriers in medicine" 17 : 360-368, 2012

38 A. Bhantnagar, "Adsorptive removal of cobalt from aqueous solutions by utilizing industrial waste and its cement fixation" 42 : 1255-1266, 2007

39 A. Stafiej, "Adsorption of heavy metal ions with carbon nanotubes" 58 : 49-52, 2007

40 H. Wei, "Adsorption of bilirubin to magnetic multi-walled carbon nanotubes as a potential application in bound solute dialysis" 405 : 38-44, 2012

41 W. Konickia, "Adsorption of anionic dye Direct Red 23 onto magnetic multi-walled carbon nanotubes-Fe3C nanocomposite:kinetics, equilibrium, and thermodynamics" 210 : 87-95, 2012

42 S¸. S. Bayazit, "Adsorption of Pb(II) ions from aqueous solutions by carbon nanotubes oxidized different methods" 2013

43 L. A. Al-Khateeb, "Adsorption behavior of estrogenic compounds on carbon nanotubes from aqueous solutions: kinetic and thermodynamic studies" 2013

44 D. W. H. Fam, "A review on technological aspects influencing commercialization of carbon nanotube sensors" 157 : 1-7, 2011