Indexing
All Issues
Submission
Author Guidelines
Reviewers
Editorial Members
Publication Fee
Vol.5 , No. 3, Publication Date: May 16, 2018, Page: 29-34
&description=Novolac resin-based networks 1 and 2 provide insight into the adsorptive removal of azo-dye Orange-II molecules from aqueous solution. The effects of pH and contact time were explored in this adsorption study. Favorable adsorption was observed at the pH values 2.30 and 7.20. Furthermore, the reusability of same network materials was demonstrated by the desorptive regeneration occurred at the very basic region.&picture=http://www.aascit.org/aascit/decorators/img/journal/905.jpg)
| [1] | Samaresh Ghosh, Department of Chemistry, Bankura Sammilani College, Bankura, India. |
| [2] | Mridula Acharyya, Department of Chemistry, Bankura Sammilani College, Bankura, India. |
| [3] | Subal Chandra Manna, Department of Chemistry and Chemical Technology, Vidyasagar University, Midnapore, India. |
Novolac resin-based networks 1 and 2 provide insight into the adsorptive removal of azo-dye Orange-II molecules from aqueous solution. The effects of pH and contact time were explored in this adsorption study. Favorable adsorption was observed at the pH values 2.30 and 7.20. Furthermore, the reusability of same network materials was demonstrated by the desorptive regeneration occurred at the very basic region.
Keywords
Novolac-Based Network Polymers, Adsorbents, Adsorption, Azo-Dye, Orange-II
Reference
| [01] | K. T. Chung, (2000). J. Env. Sci. Health, Part C. 18 (2000) 51. |
| [02] | K. Golka, S. Kopps, Z. W. Myslak, Toxicol. Lett., 151 (2004) 203. |
| [03] | M. S. Tsuboy, J. P. F. Angeli, M. S. Mantovani, S. Knasmüller, G. A. Umbuzeiro, L. R. Ribeiro, Toxicol. in Vitro, 21 (2007) 1650. |
| [04] | J. Fernandez, J. Bandara, A. Lopez, Ph. Buffat, J. Kiwi, Langmuir 15 (1999) 185. |
| [05] | L. Abramian, H. El-Rassy, H. (2009) Chem. Eng. J. 150 (2009) 403. |
| [06] | X. Jin, B. Yu, Z. Chen, J. M. Arocena, R W. Thring, J Colloid Interface Sci. 435 (2014) 15. |
| [07] | L. Zhang, L. Chen, X. Liu, W. Zhang, Rsc Adv. 5 (2015) 93840. |
| [08] | P. Nigam, I. M. Banat, D. Singh, R. Marchant, Process Biochemistry 31 (1996) 435. |
| [09] | S. P. Sun, C. J. Li, J. H. Sun, S. H. Shi, M. H. Fan, Q. Zhou, J. Hazard. Mater. 161 (2009) 1052. |
| [10] | B. Shi, G. Li, D. Wang, C. Feng, H. Tang, J. Hazard. Mater. 143 (2007), 567. |
| [11] | M. Chen, W. Ding, J. Wang, G. Diao, Ind. Eng. Chem. Res. 52 (2013) 2403. |
| [12] | Y. Wang, R. Priambodo, H. Zhang, Y. H. Huang, Rsc Adv. 5 (2015) 45276. |
| [13] | M. Ahmadi, M. H. Ardakani, A. A. Zinatizadeh, Adv. Environ. Technol. 2 (2015) 59 and references therein. |
| [14] | A. Berez, G. Schafer, F. Ayari, M. Trabelsi-Ayadi, J. Environ. Sci. Technol. 13 (2016) 1625. |
| [15] | S. Scalese, I. Nicotera, D. D'Angelo, S. Filice, S. Libertino, C. Simari, K. Dimos, V. Privitera, New J. Chem. 40 (2016) 3654. |
| [16] | Y. Guo, J. Deng, J. Zhu, C. Zhou, C. Zhou, X. Zhou, R. Bai, RSC Adv., 6 (2017) 39762. |
| [17] | T. W. Seow, C. K. Iim, (2016) Int. J. Appl. Eng. Res. 11 (2016) 2675 and references therein. |
| [18] | A. Ayati, M. N. Shahrak, B. Tanhaei, M. Sillanpää, Chemosphere 160 (2016) 30. |
| [19] | R. V. Kandisa, K. V. N. Saibaba, K. B. Shaik, R. Gopinath, 7 (2016) 6 and references therein. |
| [20] | Z. G. Hu, J. Zhang, W. L. Chan, Y. S. Szeto, Polymer, 47 (2006) 5838. |
| [21] | S. Ghosh, J. Chem. Res. 7 (2008) 419. |
| [22] | H. Gao, T. Kan, S. Zhao, Y. Qian, X. Cheng, W. Wu, X. Wang, L. Zheng, J. Hazard. Mater. 261 (2013) 83. |
| [23] | S. Ghosh, M. Acharyya, R. Manna, C. K. Dey, Bull. Chem. Soc. Jpn. 84 (2011) 349. |
| [24] | S. Ghosh, M. Acharyya, RSC Adv.. 6 (2016) 28781. |
| [25] | C. Zhang, P. C. Zhu, L. Tan, J. M. Liu, B. Tan, X. L. Yang, H. B. Xu, Macromolecules 48 (2015) 8509. |
| [26] | A. Pirkarami, M. E. Olya, F. Najafi, J. Ind. Eng. Chem. 21 (2015) 387. |
| [27] | H. M. F. Freundlich, J. Phys. Chem. 57 (1906) 385. |
| [28] | E. R., García, R. L., Medina, M. M., Lozano, I. H., Pérez, M. J., Valero, A. M. M. Franco, Materials 7 (2014) 8037. |
