Simultaneous adsorptive removal of tartrazine and indigo carmine dyes from aqueous solutions by cross-lineked chitosan/poly vinyl alcohol electrospun nanofibers

Document Type : Original Article

Authors

1 ِDep. of Chemistry, Faculty of Science, Shhid Chamran University of Ahvaz

2 Dep. of Chemistry, Faculty of Science, Shahid Chamran University of Ahvaz, Ahvaz,, lran

3 ِDep. of Physics, Faculty of Science, Shahid Chamran University of Ahvaz

Abstract

Synthetic Organic dyes are one of the most important pollutant sources that are used in various industries such as textile, food, pulp and paper mill, cosmetic and hygienic. In this research glutaraldehyde cross-linkined chitosan/polyvinyl alcohol nanofibers was prepared . Cross-linking of electrospun nanofibers were carried out by 5 % glutaraldehyde bath.These nanofibers were used for simultaneous adsorptive removal of tartrazine and indigo carmine dyes from aqueous solutions. The morphology and functional groups of the electrospun nanofibers before and after cross-linking were evaluated using scanning electron microscopy (SEM) and Fourier Transform Infra-Red (FTIR) spectroscopy. The effects of pH, adsorbent dosage, and temperature were studied. Optimum pH value for removal of tartrazine and indigo carmine dyes was found to be 3. The maximum adsorption capacity of tartrazine and indigo carmine were 73/6 mg/g and 85/4 mg/g, respectively. The kinetic and theromodynamic of adsorption followed pseudo-second order model and the Langmuir isotherm, respectively.

Graphical Abstract

Simultaneous adsorptive removal of tartrazine and indigo carmine dyes from aqueous solutions by cross-lineked chitosan/poly vinyl alcohol electrospun nanofibers

Keywords

References

1) J. Zhang, P. Zhanga, S. Zhang, Q. Zhou, Separation Science and Technology. 49 (2014) 877–886
 2) C. Santhosh, V. Velmurugan, G. Jacob, S.K. Jeong, A.N. Grace and A. Bhatnagar, Journal  Chemical Engineering, 306 (2016) 1116-1137.                                                       
3) T.W.Seow and C.K. Lim, International Journal of Applied Engineering Research, 11 (2016) 2675-2679.
4) H. Deng, Z. Wei and X. Wang, Journal Carbohydrate Polymer, 157 (2017) 1190-1197.     
5) U. Habiba, T.A. Siddique, T.C. Joo, A.   Salleh, B.C. Ang and A.M. Afifi Journal Carbohydrate Polymer, 157 (2017) 1568-1576.                                                             
6) Q. Liu, B. Yang, L. Zhang, R. Huang, Q. Liu, B. Yang, L. Zhang, and R. Huang, Journal of Biological Macromolecule, 72 (2015) 1129-1135.                                                               
 7) T. E. Bektaş, Water Science and Technology, 76 (2017) 454.                           
 8) W. Liang, Y. Wang and W. Dayong, Journal of Nano science and Nanotechnology, 16 (2016) 2922–2928.                                       
9) فتحی، محمد رضا، الماسی فر، داریوش؛ دانشگاه سمنان، مجله اندیشه علوم، شماره 43 (1396) 170-151.
 10) X. Zhu, L. Bao, Y. Wei, J. Ma and Y. Kong,  Journal of Biological Macromolecule, 91 (2016) 409-415.                                          
 11) M.I. Shariful, S.B. Sharif, J.J.L. Lee, U. Habiba, B.C. Ang and M.A. Amalina, Journal Carbohydrate Polymer, 157 (2017) 57-64.      
  12) L. Chunyao, T. Lou, X. Yan, Y. Long, C. Guangpeng and X. Wang, Journal of Biological Macromolecules, 106 (2017) 768-774.                  
 13) T. Lou, X. Wang, X. Yan, Y. Miao, Y.Z. Long, H.-L. Yin and B. S. G. Song, Journal Chemical Engineering, 64 (2016) 341-345.
 14) N. M. Mahmoodi and Z. Mokhtari-Shourijeh, Journal of Fibers and Polymers, 16
 ( 2015 ) 1861-1869.                                                    
)15 فتحی، محمدرضا، فاطمه، مقدمیان پور؛ دانشگاه سمنان، مجله اندیشه علوم، شماره 39 (1395) 64-47.
16) R. Ansari, M.B. Keivani, A. F. Delavar, J. Polym. Res. 18 (2011) 1931.                                      
17) A. R. Cestari, E.F.S. Vieira, A.M.G Tavares and R.E. Bruns. Hazard Mater. 92 (2008) 153- 566.                                                
18) A. Mittal, J. Mittal and L. Kurup, J. Hazard Mater. 136 (2006) 567–578.                                     
19) A. Mittal, L. Kurup, J. Mittal, J. Hazard. Mater. 146 (2007) 243.
 20) J. Goscianska, R. Pietrzak, Catalysis Today. 249 (2015) 259-264.                                  
21) P. K. Gautam R. K Gautam, Journal of Environmental Chemical Engineering  3 (2015)  2560-2568.                                                                
22) C. Cheng, J. Hu, D. Shao, J. Li, X. Wang, J. Hazard. Mater. 164 (2009) 923.   
23) U. R. Lakshmi, V. C. Srivastava, I. D. Mall, D. H. Lataye, J. Environ. Manage. 90 (2009) 710.                                                          
 24) A. R. Cestari, E.F.S. Vieira, A.M.G Tavares and R.E. Bruns. Hazard Mater.92 (2008)153- 566                                                                 
25) J S. Gopi, P. Balakrishnan, A. Pius S. Thomas, J. Carbohydrate Polymers. 165(2017) 115-122.                                                            
26) Y. Hu, X. Chen, Z. Liu, G. Wang, S. Liao, J. Environmental Management. 166 (2016) 512-518.
27)  M. G. Yazde, M. Ivanic A. Mohamed, A Uheide, J RSC Advances, 43 (2018).
28) M.Li, H. Wang, S.Wu, P. Zhi, RSC Adv, 2 (2012)900.     
 
Iranian Journal of Chemistry
Volume 2, Issue 1 - Serial Number 2
September 2019
Pages 89-104

Files

History

  • Receive Date: 23 October 2018
  • Revise Date: 30 July 2019
  • Accept Date: 05 October 2019

Share

How to cite

Statistics