Study of Sorption Equilibrium of Biopolymers Alginic Acid and Xanthan with C.I. Disperse Yellow 54
DOI:
https://doi.org/10.29356/jmcs.v53i2.1007Keywords:
Sorption, Biopolymers, Disperse dye, Zimm-Bragg Theory, Hydrogen BondingAbstract
Disperse yellow 54 (DY54) was adsorbed onto two biopolymers, alginic acid and xanthan. The adsorption isotherms for the biopolymer-DY54 system showed that the adsorption mechanism can best be described by Zimm-Bragg theory. UV-Visible, FT-IR and MicroRaman studies suggest that DY54 is bounded to both biopolymers alginic acid and xanthan through hydrogen bonding. Keto group of dye and hydroxyl groups of sugar residues from two polysaccharides were the principal functional groups involved in sorption mechanism.
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References
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2. Baughman, G. L.; Weber, E. J. Environ. Sci. Technol. 1994, 28, 267-276.
3. Goncalves, I. M. C.; Gomes, A.; Brás, R.; Ferra, M. I. A.; Amorim, M. T. P.; Porter, R. S. J. Soc. Dye Colour. 2000, 116, 393-397.
4. Özcan, A. S.; Clifford, A. A.; Bartle, K. D. J. Chem. Eng. Data 1997, 42, 590-592.
5. Joung, S. N.; Yoo, K.-P. J. Chem. Eng. Data 1998, 43, 9-12.
6. Guzel, B.; Akgerman, A. J. Chem. Eng. Data 1999, 44, 83-85.
7. Lee, J. W.; Min, J. M.; Bae, H. K. J. Chem. Eng. Data 1999, 44, 684-687.
8. Sung, H.-D.; Shim, J.-J. J. Chem. Eng. Data 1999, 44, 985-989.
9. Shinoda, T.; Tamura, K. J. Chem. Eng. Data 2003, 48, 869-873.
10. Hou, A.; Dai, J. Color. Technol. 2005, 121, 18-20.
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15. Ramakrishna, K. R.; Viraghavan, T. Waste Manag. 1997, 17, 483488.
16. Ramakrishna, K. R.; Viraghavan, T. Water Sci Tech. 1997, 36, 189-196.
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18. Grant, G. F.; Morris, E. R.; Rees, D. A.; Smith, P. J. C.; Thom, D. FEBS Lett. 1973, 32, 195-198.
19. Glazer, N. A.; Nikaido, H. W. H. Microbal Biotechnology, Fundamentals of Applied Microbiology; W. H. Freeman and company, New York, 1995, 272-277.
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21. Papariello, G. J.; Commanday, S. Anal. Chem. 1964, 36, 10281030.
22. Brode, W. R. J. Am. Chem. Soc. 1924, 46, 581-596.
23. Garzón, G. A. Acta Biol. Colomb. 2008, 13, 27-36.
24. Levillain, P.; Fompeidye, D. Anal. Chem. 1985, 57, 2561-2563.
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27. Langmuir, I. J. Am. Chem. Soc. 1916, 38, 2221-2295.
28. Freundlich, H. M. F. Z. Phys. Chem. 1906, 57, 385–470.
29. Zimm, B. H.; Bragg, J. K. J. Chem. Phys. 1959, 31, 526-535.
30. Schwarz, G.; Balthasar, W. Eur. J. Biochem. 1970, 12, 461-467.
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33. Hayakawa, K.; Santerre, J. P.; Kwak, J. C. T. Macromolecules 1983, 16, 1642-1645.
34. Hayakawa, K.; Kwak, J. C. T. J. Phys. Chem. 1983, 87, 506-509.
35. Malovikova, A.; Hayakawa, K.; Kwak, J. C. T. J. Phys. Chem. 1984, 88, 1930-1933.
36. Okuzaki, H.; Osada, Y. Macromolecules 1994, 27, 502-506.
37. Jain, N.; Trabelsi, S.; Guillot, S.; McLoughlin, D.; Langevin, D.; Letellier, P.; Turmine, M. Langmuir 2004, 20, 8496-8503.
38. Goddard, E. D., in: Principles of Polymer Science and Technology in Cosmetic and Personal Care. Desmond, E. Ed. Marcel Dekker Inc. New York, 1999, 152-164.
39. Sato, T.; Norisuye, T.; Fujita, H. Polym. J. 1984, 16, 341-350.
40. Strand, K. A.; Bøc, A.; Dalberg, P. S.; Sikkeland, T.; Smidsrød, O. Macromolecules 1982, 15, 570-579.
41. Smidsrød, O.; Haug, A. Acta Chem. Scand. 1968, 22, 797-810.
42. Blackburn, R. S. Environ. Sci. Technol. 2004, 38, 4905-4909.
43. Nasr, M. F.; Abo El-Ola, S. M.; Ramadan, A.; Hashem, A. I. Polym.-Plast. Technol. Eng. 2006, 45, 335-340.
44. Ren, B.; Gao, Y.; Lu, L; Liu, X.; Tong, Z. Carbohyd. Polym. 2006, 66, 266-273.
45. Li, Y. M.; Xu, G. Y.; Chen, A. M.; Yuan, S. L. ; Cao, X. R. J. Phys. Chem. B. 2005, 109, 22290-22295.
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2019-06-24
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