KINETICS AND ISOTHERM STUDIES OF Pb(II) IMPRINTED CARBOXYMETHYL CHITOSAN–PECTIN-PEGDE
DOI:
https://doi.org/10.11113/jt.v79.10718Keywords:
Adsorption, Pb(II), carboxymethyl chitosan(CMC), pectin(Pec), Pb(II) imprinted-CMC-Pec-PEGDEAbstract
Pectin and chitosan are biomaterials that capable to act as biosorbent. Pectin has active groups, such as carboxyl, methoxyl, and hydroxyl (OH), while chitosan has amine group (–NH2) and hydroxyl (OH) as the active site metal ion absorber. Integration of two biopolymers is conducted by using a suitable cross-linker agents that are expected to form stable and more organized structure. This structure facilitate metal ions to enter and to form chelation reaction. Thus, it has great capacity for metal adsorption. A modified natural adsorbent pectin-chitosan has been synthesized by reacting of -OH group among pectin (Pec) and chitosan with Poly(ethylene glycol) Diglycidyl Ether (PEGDE) crosslinker agent to form a stable and an acidic medium-resistance adsorbent. Prior to increasing the active group of the adsorbent, chitosan was attached with acetate to form Carboxymethyl Chitosan (CMC). Furthermore, the CMC-Pec-PEGDE adsorbent was imprinted with Pb (II) to afford Pb(II) imprinted-CMC-Pec-PEGDE adsorbent in order to improve the selective sorption of Pb(II) metal ion. All of the functional groups attached on the synthesized adsorbents were characterized by Fourier Transform Infrared (FT-IR) Spectrometry. The kinetics and thermodynamics bath sorption of Pb(II) on Pb(II) imprinted-CMC-Pec-PEGDE film adsorbent have been investigated including the optimal condition for adsorption. The pseudo first-order and second-order kinetic model were investigated in order to determine the adsorption mechanism. The results indicated that all of the three adsorbent, CMC, CMC-Pec-PEGDE, and Pb(II) imprinted-CMC-Pec-PEGDE followed a pseudo-second-order kinetic model. Furthermore, adsorption studies of Pb(II) ion on CMC and CMC–Pec-PEGDE found to follow Langmuir adsorption while on imprinted-CMC-Pec-PEGDE followed Freundlich adsorption isotherm. The adsorption isotherm parameters of CMC and CMC-Pec-PEGDE adsorbents were ΔG° of 24.8 and 23.1 kJ mol-1, respectively. While Pb(II) imprinted-CMC-Pec-PEGDE followedisotherm model with ΔG° of 9.6 kJ mol-1.
References
Goel, J., Kadirvelu K., Rajagopal, C. and Garg, V. K. 2005. Removal of Lead(II) by Adsorption Using Treated Granular Activated Carbon: Batch and Column Studies. J. Hazard. Mater. 125(10): 211-220.
Jing, H., Yangcheng L. and Guangsheng, L. 2014. Ca(II) Imprinted Chitosan Microspheres: An Effective and Green Adsorbent for the Removal of Cu(II), Cd(II) and Pb(II) from Aqueous Solutions. Chem. Eng. J. 244: 202-208.
Gupta, V. K., and Ali, I. 2004. Removal of Lead and Chromium from Wastewater Using Bagasse Fly Ash-A Sugar Industry Waste. J. Colloid and Interface Sci. 271 (2): 321-328.
Gupta, V. K., Agarwal S. and Saleh, T. A. 2011. Synthesis and Characterization of Alumina-coated Carbon Nanotubes and Their Application for Lead Removal. J Hazard Mater. 185: 17-23.
Abbas, H. S., Ahmed, A. M., and Tariq, J. A. M. 2013. Competitive Biosorption of Lead, Cadmium, Copper, and Arsenic Ions Using Algae. Environ Sci Pollut Res. 20: 3011-3023.
Davis, M. L; Cornell, D. A. 1991. Introduction to Environmental Engineering. 2nd edition. McGraw–Hill, New York, NY, USA.
Liu, B., Wang, D., Xu, Y. and Huang, G. 2011. Adsorption Properties of Cd(II)-imprinted Chitosan Resin. J. Mater. Sci. 46: 1535-1541.
Fu, F. and Wang, Q. 2011, Removal of Heavy Metal Ions from Wastewaters: A Review. J. Environ. Manage. 92(12): 407-418.
Kupchik, L. A, Kartel, N. T., Bogdanov, E. S., Bogdanov, O. V. and Kupchik, M. P. 2006. Chemical Modification of Pectin to Improve Its Sorption Properties. Russian J. of App.Chem. 79: 457-460.
Stum, W., Morgan. 1996. Aquatic Chemistry. 3rd Edition. John Wiley and Sons, Inc. Canada.
Mata, Y. N., Blázquez, M. L., Ballester A., González, F. and Mu˜noz. 2009. Sugar-beet Pulp Pectin Gels as Biosorbent for Heavy Metals: Preparation and Determination of Biosorption and Desorption Characteristics. J. A. Chem. Eng. J. 150: 289-301.
Chen, A. H., Yang, C. Y, Chen, C. Y., Chen, C. Y. and Chen, C. W. 2009. The Chemically Crosslinked Metal Complexed Chitosans for Comparative Adsorptions of Cu(II), Zn(II), Ni(II) and Pb(II) Ions in Aqueous Medium. J. of Hazardous Material. 163: 1068-1075.
Sabharwal, S., and Ramnani, S. P. 2006. Adsorption Behavior of Cr(VI) onto Radiation Crosslinked Chitosan and Its Possible Application for the Treatment of Wastewater Containing Cr(VI). React. Funct. Polym. 66: 902-909.
Sahin, M., Kocak, N., Arslan, G. and Ucan, H. I. 2012, Synthesis of Crosslinked Chitosan Possessing Schiff Base and Its Use in Metal Removal. J Inorg Organomet Polym. 22: 166-177.
Chen, A. H., Liu, S. C., Chen, C. Y. and Chen, C. Y. 2008. Comparative Adsorption of Cu(II), Zn(II), and Pb(II) Ions in Aqueous Solution on the Crosslinked Chitosan with Epichlorohydrin. J. Hazard. Mater. 154: 184-191.
Xu, L., Huang, Y. A., Zhu, Q. J. and Ye, C. 2015. Chitosan in Molecularly-imprinted Polymers: Current and Future Prospects. Int. J. Mol. Sci. 16: 18328-18347.
Sun, S., Wang, L. and Wang, A. J. 2006, Adsorption Properties of Crosslinked Carboxymethyl-chitosan Resin with Pb(II) as Template Ions. J. Hazard. Mater. B136: 930-937.
Birlik, E., Ersoz, A., Denizli, A., and Say, R. 2006. Preconcentration of Copper Using Double-imprinted Polymer via Solid Phase Extraction. Anal. Chim Acta. 565: 145-151.
Hastuti, B., Mudasir, Siswanta, D. and Triyono. 2015. Preparation and Pb(II) Adsorption Properties of Crosslinked Pectin-carboxymethyl Chitosan Film. Indones. J. Chem. 15(3): 248-255.
Bernabe, C., Peniche, W. and Argueles–M. 2005. Swelling Behavior of Chitosan/pectin Polyelectrolyte Complex Membranes Effect of Thermal Cross-linking. Polym. Bull. 55: 367-375.
Ho, Y. S. and Mc Kay, G. 1999. Pseudo-second Order Model for Sorption Processes. Process Biochem. 34: 451-465.
Solener, M., Tunali, S., Safa, O. A. and Gedikbey, T. 2008. Adsorption Characteristics of Lead(II) Ions onto the Clay/poly(methoxyethyl) Acrylamide (PMEA) Composite from Aqueous Solutions. Desalination. 223: 308-322.
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