References

1. Z. Huang, Y. Li, W. Chen, J. Shi, N. Zhang, X. Wang, Z. Li, L. Gao, Y. Zhang, Modified bentonite adsorption of organic pollutants of dye wastewater, Mater. Chem. Phys., 202 (2017) 266–276.
2. C.D. Raman, S. Kanmani, Textile dye degradation using nano zero valent iron: a review, J. Environ. Manage., 177 (2016) 341–355.
3. S.P. Patil, B. Bethi, G.H. Sonawane, V.S. Shrivastava, S. Sonawane, Efficient adsorption and photocatalytic degradation of Rhodamine B dye over Bi₂O₃-bentonite nanocomposites: a kinetic study, J. Ind. Eng. Chem., 34 (2016) 356–363.
4. Y.C. Xu, Z.X. Wang, X.Q. Cheng, Y.C. Xiao, L. Shao, Positively charged nanofiltration membranes via economically mussel-substance-simulated codeposition for textile wastewater treatment, Chem. Eng. J., 303 (2016) 555–564.
5. S. Olivera, H.B. Muralidhara, K. Venkatesh, V.K. Gunab, K. Gopalakrishna, K.K. Yogesh, Potential applications of cellulose and chitosan nanoparticles/composites in wastewater treatment: a review, Carbohydr. Polym., 153 (2016) 600–618.
6. S. Dawood, T.K. Sen, Review on dye removal fromits aqueous solution into alternative cost effective and non-conventional adsorbents, J. Chem. Process. Eng., 1 (2013) 1–7.
7. M. Naushad, G. Sharma, Z.A. Alothman, Photodegradation of toxic dye using Gum Arabic-crosslinkedpoly(acrylamide)/Ni(OH)₂/FeOOH nanocomposites hydrogel, J. Cleaner Prod., 241 (2019) 1182.
8. N.S. Shaha, J.A. Khan, M. Sayed, Z.U.H. Khan, J. Iqbal, S. Arshad, M. Junaid, H.M. Khan, Synergistic effects of H₂O₂ and S₂O₈²⁻ in the gamma radiation induced degradation of congo-red dye: kinetics and toxicities evaluation, Sep. Purif. Technol., 233 (2020) 1159.
9. J. Wang, Q. Zhang, X. Shao, J. Ma, G. Tian, Properties of magnetic carbon nanomaterials and application in removal organic dyes, Chemosphere, 207 (2018) 377–384.
10. V.K. Gupta, R. Jain, A. Mittal, T.A. Saleh, A. Nayak, S. Agarwal, S. Sikarwar, Photo-catalytic degradation of toxic dye amaranth on TiO₂/UV in aqueous suspensions, Mater. Sci. Eng., A, 32 (2012) 7–12.
11. D.P. Dutta, S. Nath, Low cost synthesis of SiO₂/C nanocomposite from corn cobs and its adsorption of uranium (VI), chromium (VI) and cationic dyes from wastewater, J. Mol. Liq., 269 (2018) 140–151.
12. P.S Yap, V. Priyaa, Removal of crystal violet and acid green 25 from water using kaolin, Mater. Sci. Eng., 495 (2019) 12–52.
13. S. Mallakpour, M. Hatami, An effective, low-cost and recyclable bio-adsorbent having amino acid intercalated LDH@Fe₃O₄/PVA magnetic nanocomposites for removal of methyl orange from aqueous solution, Appl. Clay Sci., 174 (2019) 127–137.
14. M. Baghdadi, B. Alipour Soltani, M. Nourani, Malachite green removal from aqueous solutions using fibrous 2 cellulose sulfate prepared from medical cotton waste: comprehensive 3 batch and column studies, J. Ind. Eng. Chem., 55 (2017) 128–139.
15. M.A. Ahmad, N.A. Ahmad Puad, O.S. Bello, Kinetic equilibrium and thermodynamic studies of synthetic dye removal using pomegranate peel activated carbon prepared by microwaveinduced KOH activation, Water Resour. Ind., 6 (2014) 18–35.
16. Y. Bentaha, K. Draoui, C. Hurel, O. Ajouyed, S. Khairoun, N. Marmier, Physico-chemical characterization and valorization of swelling and nonswelling Moroccan clays in basic dye removal from aqueous solutions, J. Afr. Earth Sci., 154 (2019) 80–88.
17. S. Du, L. Wang, N. Xue, M. Pei, W. Sui, W. Guo, Polyethyleneimine modified bentonite for the adsorption of amino black 10B, J. Solid State Chem., 252 (2017) 152–157.
18. Y. Gao, Y. Guo, H. Zhang, Iron modified bentonite: enhanced adsorption performance for organic pollutant and its regeneration by heterogeneous visible light photo-Fenton process at circumneutral pH, J. Hazard. Mater., 302 (2016) 105–113.
19. Q. Li, Y. Su, Q. Yue, B. Gao, Adsorption of acid dyes onto bentonite modified with polycations: kinetics study and process design to minimize the contact time, Appl. Clay Sci., 53 (2011) 760–765.
20. Q. Kang, W. Zhou, Q. Li, B. Gao, J. Fan, D. Shen, Adsorption of anionic dyes on poly(epicholorohydrin dimethylamine) modified bentonite in single and mixed dye solutions, Appl. Clay Sci., 45 (2009) 280–287.
21. Y. Liu, Y. Kang, B. Mu, A. Wang, Attapulgite/bentonite interactions for methylene blue adsorption characteristics from aqueous solution, Chem. Eng. J., 237 (2014) 403–410.
22. S.L. Bartelt-Hunt, S.E. Burns, J.A Smith, Nonionic organic solute sorption to two organobentonites as a function of organiccarbon content, J. Colloid Interface Sci., 266 (2003) 251–258.
23. A. Khenifi, B. Zohra, B. Kahina, H. Houari, D. Zoubir, Removal of 2,4-DCP from wastewater by CTAB/bentonite using one – step and two-step methods: a comparative study, Chem. Eng. J., 146 (2009) 345–354.
24. R.S. Juang, F.C. Wu, R.L. Tseng, Mechanism of adsorption of dyes and phenols from water using activated carbons prepared from plum kernels, J. Colloid Interface Sci., 227 (2000) 437–444.
25. F.E. Titchou, R. Ait Akbour, A. Assabbane, M. Hamdani, Removal of cationic dye from aqueous solution using Moroccan pozzolana as adsorbent: isotherms, kinetic studies, and application on real textile wastewater treatment, Groundwater Sustainable Dev., 11 (2020) 1004.
26. H. Lata, V.K. Garg, R.K. Gupta, Adsorptive removal of basic dye by chemically activated Parthenium biomass: equilibrium and kinetic modeling, Desalination, 219 (2008) 250–261.
27. A. Belaroussi, F. Labed, A. Khenifi, R. Ait Akbour, Z. Bouberka, M. Kameche, Z. Derriche, A novel approach for removing an industrial dye 4GL by an Algerian Bentonite, Acta Ecol. Sin., 38 (2018) 148–156.
28. Z. Luo, M. Gao, Y. Ye, S. Yang, Modification of reducedcharge montmorillonites by a series of Gemini surfactants: characterization and application in methyl orange removal, Appl. Surf. Sci., 324 (2015) 807–816.
29. V.K. Gupta, D. Mohan, V.K. Saini, Studies on the interaction of some azo dyes (naphthol red-J and direct orange) with nontronite mineral, J. Colloid Interface Sci., 298 (2006) 79–86.
30. H. Shayesteh, A. Rahbar-Kelishami, R. Norouzbeigi, Evaluation of natural and cationic surfactant modified pumice for Congo red removal in batch mode: kinetic, equilibrium, and thermodynamic studies, J. Mol. Liq., 221 (2016) 1–11.
31. L. Zhou, H. Chen, X. Jiang, F. Lu, Y. Zhou, W. Yin, X. Ji, Modification of montmorillonite surfaces using a novel class of cationic gemini surfactants, J. Colloid Interface Sci., 332 (2009) 16–21.
32. H. Ren, S. Tian, M. Zhu, Y. Zhao, K. Li, Q. Ma, S. Ding, J. Gao, Z. Miao, Modification of montmorillonite by Gemini surfactants with different chain lengths and its adsorption behavior for methyl orange, Appl. Clay Sci., 151 (2018) 29–36.
33. J.M. Cases, F. Villieras, Thermodynamic model of ionic and nonionic surfactant adsorption–abstraction on heterogeneous surfaces, Langmuir, 8 (1992) 1251–1264.
34. S. Yang, M. Gao, Z. Luo, Adsorption of 2-naphthol on the organo-montmorillonites modified by Gemini surfactants with different spacers, Chem. Eng. J., 256 (2014) 39–50.
35. L. Yan, L. Qin, H. Yu, S. Li, R. Shan, B. Du, Adsorption of acid dyes from aqueous solution by CTMAB modified bentonite: kinetic and isotherm modeling, J. Mol. Liq., 211 (2015) 1074–1081.
36. M. Boufatit, H. Ait-Amar, W.R. McWhinnie, Development of an Algerian material montmorillonite clay. Adsorption of phenol, 2-dichlorophenol and 2,4,6-trichlorophenol fromaqueous solutions onto montmorillonite exchanged with transition metal complexes, Desalination, 206 (2007) 394–406.
37. Z. Huang, Y. Li, W. Chen, J. Shi, N. Zhang, X. Wang, Z. Li, L. Gao, Y. Zhang, Formulation study for softening of hard water using surfactant modified bentonite adsorbent coating, Mater. Chem. Phys., 202 (2017) 266–276.
38. Y.S. Ho, Citation review of Lagergren kinetic rate equation on adsorption reactions, Sientometrics, 59 (2004) 171–177.
39. Y.S. Ho, G. McKay, The kinetics of sorption of divalent metal ions onto sphagnum moss peat, Water Res., 34 (2000) 735–742.
40. J. Shah, M. Rasul Jan, M. Zeeshan, M. Imran, Kinetic, equilibrium and thermodynamic studies for sorption of 2,4-dichlorophenol onto surfactant modified fuller’s earth, Appl. Clay Sci., 143 (2017) 227–233.
41. S. Nethaji, A. Sivasamy, A.B. Mandal, Adsorption isotherms, kinetics and mechanism for the adsorption of cationic and anionic dyes onto carbonaceous particles prepared from Juglans regia shell biomass, Int. J. Environ. Sci. Technol., 10 (2013) 231–242.
42. C.Y. Cao, L.K. Meng, Y.H. Zhao, Adsorption of phenol from wastewater by organo-bentonite, Desal. Water Treat., 52 (2014) 3504–3509.
43. A. Ozcan, C. Omero˘glu, Y. Erdo˘gan, A.S. Ozcan, Modification of bentonite with a cationic surfactant: adsorption study of textile dye Reactive Blue 19, J. Hazard. Mater., 140 (2007) 173–179.
44. B.H. Hameed, A.A. Ahmad, N. Aziz, Adsorption of reactive dye on palm-oil industry waste: equilibrium, kinetic and thermodynamic studies, Desalination, 247 (2009) 551–560.
45. D. Shen, J. Fan, W. Zhou, B. Gao, Q. Yue, Q. Kang, Adsorption kinetics and isotherm of anionic dyes onto organo-bentonite from single and multisolute systems, J. Hazard. Mater., 172 (2009) 99–107.
46. S. Banerjee, S. Dubey, R. Kumar Gautam, M.C. Chattopadhyaya, Y.C. Sharma, Adsorption characteristics of alumina nanoparticles for the removal of hazardous dye, Orange G from aqueous solutions, Arabian J. Chem., 12 (2019) 5339–5354.
47. C.A.P. Almeida, N.A. Debacher, A.J. Downs, L. Cottet, C.A.D. Mello, Removal of methylene blue from colored effluent by adsorption on montmorillonite clay, J. Colloid Interface Sci., 332 (2009) 46–53.
48. L. Wang, A. Wang, Adsorption properties of Congo Red from aqueous solution onto surfactant-modified montmorillonite, J. Hazard. Mater., 160 (2008) 173–180.
49. C.H. Giles, T.H. McEwan, S.N. Nakhwa, Smith, Studies in adsorption. XI. A system of classification of solution adsorption isotherms and its use in diagnosis of adsorption mechanisms and in measurements of specific areas of soils, J. Chem. Soc., 786 (1960) 3973–3993.
50. I. Langmuir, The adsorption of gases on plane surfaces of glass, mica and platinum, J. Am. Chem. Soc., 40 (1918) 1361–1403.
51. H.M.F. Freundlich, Over the adsorption in solution, J. Phys. Chem., 57 (1906) 385–471.
52. M.M. Dubinin, L.V. Radushkevich, The equation of the characteristic cuves of the activated charcoal, Chem. Sec., 55 (1947) 331–337.
53. V. Vimonses, S. Lei, B. Jin, C.W.K. Chow, C. Saint, Kinetic study and equilibrium isotherm analysis of Congo Red adsorption by clay materials, Chem. Eng. J., 148 (2009) 354–364.
54. D. Chen, J. Chen, X. Luan, H. Ji, Z. Xia, Characterization of anion–cationic surfactants modified montmorillonite and its application for the removal of methyl orange, Chem. Eng. J., 171 (2011) 1150–1158.
55. C. Umpuch, S. Sakaew, Removal of methyl orange from aqueous solutions by adsorption using chitosan intercalated montmorillonite, Songklanakarin J. Sci. Technol., 35 (2013) 451–459.
56. N. Belhouchat, H. Zaghouane-Boudiaf, C. Viseras, Removal of anionic and cationic dyes from aqueous solution with activated organo-bentonite/sodium alginate encapsulated beads, Appl. Clay Sci., 135 (2016) 9–15.