References

1. R. Gong, Y. Sun, J. Chen, H. Liu, C. Yang, Effect of chemical modification on dye adsorption capacity of peanut hull, Dyes Pigm., 67 (2005) 175–181.
2. S.T. Ong, C.K. Lee, Z. Zainal, Removal of basic and reactive dyes using ethylenediamine modified rice hull, Bioresour. Technol., 98 (2007) 2792–2799.
3. Y. Ho, C. Chiang, Sorption studies of acid dye by mixed sorbents, Adsorption 7 (2001) 139–147.
4. B. Hameed, M. El-Khaiary, Equilibrium, kinetics and mechanism of malachite green adsorption on activated carbon prepared from bamboo by K₂CO₃ activation and subsequent gasification with CO₂, J. Hazard. Mater., 157 (2008) 344–351.
5. V. Gupta, I. Ali, D. Mohan, Equilibrium uptake and sorption dynamics for the removal of a basic dye (basic red) using lowcost adsorbents, J. Colloid Interf. Sci., 265 (2003) 257–264.
6. H. Chen, J. Zhao, Adsorption study for removal of Congo red anionic dye using organo-attapulgite, Adsorption, 15 (2009) 381–389.
7. I.D. Mall, V.C. Srivastava, N.K. Agarwal, I.M. Mishra, Removal of congo red from aqueous solution by bagasse fly ash and activated carbon: kinetic study and equilibrium isotherm analyses, Chemosphere, 61 (2005) 492–501.
8. M. Kornaros, G. Lyberatos, Biological treatment of wastewaters from a dye manufacturing company using a trickling filter, J. Hazard. Mater., 136 (2006) 95–102.
9. J.-W. Lee, S.-P. Choi, R. Thiruvenkatachari, W.-G. Shim, H. Moon, Submerged microfiltration membrane coupled with alum coagulation/powdered activated carbon adsorption for complete decolorization of reactive dyes, Water Res., 40 (2006) 435–444.
10. H. Selcuk, Decolorization and detoxification of textile wastewater by ozonation and coagulation processes, Dyes Pigm., 64 (2005) 217–222.
11. K. Dutta, S. Mukhopadhyay, S. Bhattacharjee, B. Chaudhuri, Chemical oxidation of methylene blue using a Fenton-like reaction, J. Hazard. Mater., 84 (2001) 57–71.
12. M. Buonomenna, A. Gordano, G. Golemme, E. Drioli, Preparation, characterization and use of PEEKWC nanofiltration membranes for removal of Azur B dye from aqueous media, React. Funct. Polym., 69 (2009) 259–263.
13. C.-H. Liu, J.-S. Wu, H.-C. Chiu, S.-Y. Suen, K.H. Chu, Removal of anionic reactive dyes from water using anion exchange membranes as adsorbers, Water Res., 41 (2007) 1491–1500.
14. M. Muruganandham, M. Swaminathan, TiO₂–UV photocatalytic oxidation of Reactive Yellow 14: effect of operational parameters, J. Hazard. Mater., 135 (2006) 78–86.
15. M. Arami, N.Y. Limaee, N.M. Mahmoodi, N.S. Tabrizi, Equilibrium and kinetics studies for the adsorption of direct and acid dyes from aqueous solution by soy meal hull, J. Hazard. Mater., 135 (2006) 171–179.
16. S. Dawood, T.K. Sen, Removal of anionic dye Congo red from aqueous solution by raw pine and acid-treated pine cone powder as adsorbent: equilibrium, thermodynamic, kinetics, mechanism and process design, Water Res., 46 (2012) 1933– 1946.
17. Y.C. Sharma, Uma, Optimization of parameters for adsorption of methylene blue on a low-cost activated carbon, J. Chem. Eng. Data, 55 (2010) 435–439.
18. S. Wang, Z.H. Zhu, A. Coomes, F. Haghseresht, G.Q. Lu, The physical and surface chemical characteristics of activated carbons and the adsorption of methylene blue from wastewater, J. Coll. Interf. Sci., 284 (2005) 440–446.
19. M.T. Yagub, T.K. Sen, S. Afroze, H.M. Ang, Dye and its removal from aqueous solution by adsorption: A review, Adv. Coll. Interf. Sci., 209 (2014) 172–184.
20. Y.-F. Lin, H.-W. Chen, P.-S. Chien, C.-S. Chiou, C.-C. Liu, Application of bifunctional magnetic adsorbent to adsorb metal cations and anionic dyes in aqueous solution, J. Hazard. Mater., 185 (2011) 1124–1130.
21. M.U. Dural, L. Cavas, S.K. Papageorgiou, F.K. Katsaros, Methylene blue adsorption on activated carbon prepared from Posidonia oceanica (L.) dead leaves: Kinetics and equilibrium studies, Chem. Eng. J., 168 (2011) 77–85.
22. S. Xiao, M. Shen, R. Guo, Q. Huang, S. Wang, X. Shi, Fabrication of multiwalled carbon nanotube-reinforced electrospun polymer nanofibers containing zero-valent iron nanoparticles for environmental applications, J. Mater. Chem., 20 (2010) 5700– 5708.
23. D. Wesenberg, I. Kyriakides, S.N. Agathos, White-rot fungi and their enzymes for the treatment of industrial dye effluents, Biotechnol. Adv., 22 (2003) 161–187.
24. J.-S. Wu, C.-H. Liu, K.H. Chu, S.-Y. Suen, Removal of cationic dye methyl violet 2B from water by cation exchange membranes, J. Membr. Sci., 309 (2008) 239–245.
25. H.-C. Chiu, C.-H. Liu, S.-C. Chen, S.-Y. Suen, Adsorptive removal of anionic dye by inorganic–organic hybrid anion-exchange membranes, J. Membr. Sci., 337 (2009) 282–290.
26. M.I. Khan, S. Akhtar, S. Zafar, A. Shaheen, M.A. Khan, R. Luque, Removal of Congo Red from aqueous solution by anion exchange membrane (EBTAC): adsorption kinetics and themodynamics, Mater., 8 (2015) 4147–4161.
27. M.I. Khan, L. Wu, A.N. Mondal, Z. Yao, L. Ge, T. Xu, Adsorption of methyl orange from aqueous solution on anion exchange membranes: Adsorption kinetics and equilibrium, Membr. Wat. Treat., 7 (2016) 23–38.
28. R. Han, D. Ding, Y. Xu, W. Zou, Y. Wang, Y. Li, L. Zou, Use of rice husk for the adsorption of congo red from aqueous solution in column mode, Bioresour. Technol., 99 (2008) 2938– 2946.
29. S. Chatterjee, M.W. Lee, S.H. Woo, Adsorption of congo red by chitosan hydrogel beads impregnated with carbon nanotubes, Bioresour. Technol., 101 (2010) 1800–1806.
30. Z. Hu, H. Chen, F. Ji, S. Yuan, Removal of Congo Red from aqueous solution by cattail root, J. Hazard. Mater., 173 (2010) 292–297.
31. M.A. Shouman, N.A. Fathy, S.M. El-Khouly, A.A. Attia, Equilibrium, kinetic and thermodynamic studies of the adsorption of acidic dye onto bagasse fly ash, Carb. lett., 12 (2011) 143–151.
32. A.-M.A.K. Salman, J.M. Abd-Hussian, N.A. Mustafa, S.A., The use of grinded white kidney beans to remove the congo red dye from aqueous solutions by adsorption, Meso. Environ. J., 3 (2017) 35–39.
33. A. Tor, Y. Cengeloglu, Removal of congo red from aqueous solution by adsorption onto acid activated red mud, J. Hazard. Mater., 138 (2006) 409–415.
34. F.A. Pavan, S.L.P. Dias, E.C. Lima, E.V. Benvenutti, Removal of Congo red from aqueous solution by aniline propylsilica xerogel, Dyes Pigm., 76 (2008) 64–69.
35. T.K. Roy, N.K. Mondal, Biosorption of Congo Red from aqueous solution onto burned root of Eichhornia crassipes biomass, Appl. Wat. Sci., 7 (2017) 1841–1854.
36. A.T. Ojedokun, O.S. Bello, Kinetic modeling of liquid-phase adsorption of Congo red dye using guava leaf-based activated carbon, Appl. Wat. Sci., 7 (2017) 1965–1977.
37. J. Pal, M.K. Deb, Efficient adsorption of congo red dye from aqueous solution using green synthesized coinage nanoparticles coated activated carbon beads, Appl. Nanosci., 4 (2014) 967–978.
38. C. Wu, Y. Wu, J. Luo, T. Xu, Y. Fu, Anion exchange hybrid membranes from PVA and multi-alkoxy silicon copolymer tailored for diffusion dialysis process, J. Membr. Sci., 356 (2010) 96–104.
39. Y. Li, T. Xu, M. Gong, Fundamental studies of a new series of anion exchange membranes: membranes prepared from bromomethylated poly (2, 6-dimethyl-1, 4-phenylene oxide) (BPPO) and pyridine, J. Membr. Sci., 279 (2006) 200–208.
40. X. Lin, L. Wu, Y. Liu, A.L. Ong, S.D. Poynton, J.R. Varcoe, T. Xu, Alkali resistant and conductive guanidinium-based anion-exchange membranes for alkaline polymer electrolyte fuel cells, J. Power Sour., 217 (2012) 373–380.
41. L. Marçal, E. De Faria, M. Saltarelli, P. Calefi, E. Nassar, K. Ciuffi, R. Trujillano, M. Vicente, S. Korili, A. Gil, Amine-functionalized titanosilicates prepared by the sol−gel process as adsorbents of the azo-dye orange II, Ind. Eng. Chem. Res., 50 (2010) 239–246.
42. H.A. Chanzu, J.M. Onyari, P.M. Shiundu, Biosorption of malachite green from aqueous solutions onto polylactide/spent brewery grains films: kinetic and equilibrium studies, J. Polym. Environ., 20 (2012) 665–672.
43. M. Mohammad, S. Maitra, N. Ahmad, A. Bustam, T.K. Sen, B.K. Dutta, Metal ion removal from aqueous solution using physic seed hull, J. Hazard. Mater., 179 (2010) 363–372.
44. F. Arias, T.K. Sen, Removal of zinc metal ion (Zn²⁺) from its aqueous solution by kaolin clay mineral: A kinetic and equilibrium study, Coll. Surf. A: Physicochem. Eng. Asp., 348 (2009) 100–108.
45. T.K. Sen, M.V. Sarzali, Removal of cadmium metal ion (Cd²⁺) from its aqueous solution by aluminium oxide (Al₂O₃): A kinetic and equilibrium study, Chem. Eng. J., 142 (2008) 256–262.
46. S. Mohan, R. Gandhimathi, Removal of heavy metal ions from municipal solid waste leachate using coal fly ash as an adsorbent, J. Hazard. Mater., 169 (2009) 351–359.
47. P. Luo, Y. Zhao, B. Zhang, J. Liu, Y. Yang, J. Liu, Study on the adsorption of Neutral Red from aqueous solution onto halloysite nanotubes, Water Res., 44 (2010) 1489–1497.
48. A. Roy, S. Chakraborty, S.P. Kundu, B. Adhikari, S. Majumder, Adsorption of anionic-azo dye from aqueous solution by lignocellulose-biomass jute fiber: equilibrium, kinetics, and thermodynamics study, Ind. Eng. Chem. Res., 51 (2012) 12095– 12106.
49. S. Largergren, Zur theorie der sogenannten adsorption geloster stoffe. Kungliga Svenska Vetenskapsakademiens, Handlingar 24 (1898) 1–39.
50. N. Kannan, M.M. Sundaram, Kinetics and mechanism of removal of methylene blue by adsorption on various carbons— a comparative study, Dyes Pigm., 51 (2001) 25–40.
51. Y.-S. Ho, Second-order kinetic model for the sorption of cadmium onto tree fern: A comparison of linear and non-linear methods, Water Res., 40 (2006) 119–125.
52. M. Özacar, İ.A. Şengil, A kinetic study of metal complex dye sorption onto pine sawdust, Proc. Biochem., 40 (2005) 565–572.
53. S. Chowdhury, R. Mishra, P. Saha, P. Kushwaha, Adsorption thermodynamics, kinetics and isosteric heat of adsorption of malachite green onto chemically modified rice husk, Desalination, 265 (2011) 159–168.
54. S. Kuo, E. Lotse, Kinetics of phosphate adsorption and desorption by hematite and gibbsite 1, Soil Sci., 116 (1973) 400–406.
55. C. Aharoni, M. Ungarish, Kinetics of activated chemisorption. Part 2. Theoretical models, J. Chem. Soc., Faraday Trans. 1: Phys. Chem. Cond. Phas., 73 (1977) 456–464.
56. E. Tütem, R. Apak, Ç.F. Ünal, Adsorptive removal of chlorophenols from water by bituminous shale, Water Res., 32 (1998) 2315–2324.
57. I.D. Mall, V.C. Srivastava, N.K. Agarwal, I.M. Mishra, Adsorptive removal of malachite green dye from aqueous solution by bagasse fly ash and activated carbon-kinetic study and equilibrium isotherm analyses, Coll. Surf. A: Physicochem. Eng. Asp., 264 (2005) 17–28.
58. B. Royer, N.F. Cardoso, E.C. Lima, J.C. Vaghetti, N.M. Simon, T. Calvete, R.C. Veses, Applications of Brazilian pine-fruit shell in natural and carbonized forms as adsorbents to removal of methylene blue from aqueous solutions—Kinetic and equilibrium study, J. Hazard. Mater., 164 (2009) 1213–1222.
59. S. Zakhama, H. Dhaouadi, F. M’henni, Nonlinear modelisation of heavy metal removal from aqueous solution using Ulva lactuca algae, Biores. Technol., 102 (2011) 786–796.
60. H. Dhaouadi, F. M’Henni, Vat dye sorption onto crude dehydrated sewage sludge, J. Hazard. Mater., 164 (2009) 448–458.
61. S. Zafar, N. Khalid, M. Daud, M. Mirza, Kinetic studies of the adsorption of thorium ions onto rice husk from aqueous media: linear and nonlinear approach, Nucleus, 52 (2015) 14–19.
62. M.C. Ncibi, Applicability of some statistical tools to predict optimum adsorption isotherm after linear and non-linear regression analysis, J. Hazard. Mater., 153 (2008) 207–212.
63. I. Langmuir, The constitution and fundamental properties of solids and liquids. II. Liquids. 1, J. Am. Chem. Soc., 39 (1917) 1848–1906.
64. H. Freundlich, Over the adsorption in solution, J. Phys. Chem., 57 (1906) 1100–1107.
65. S. Chen, Q. Yue, B. Gao, Q. Li, X. Xu, Removal of Cr (VI) from aqueous solution using modified corn stalks: Characteristic, equilibrium, kinetic and thermodynamic study, Chem. Eng. J., 168 (2011) 909–917.
66. R. Donat, A. Akdogan, E. Erdem, H. Cetisli, Thermodynamics of Pb²⁺ and Ni²⁺ adsorption onto natural bentonite from aqueous solutions, J. Coll. Interf. Sci., 286 (2005) 43–52.
67. B. Hu, H. Luo, H. Chen, T. Dong, Adsorption of chromate and para-nitrochlorobenzene on inorganic–organic montmorillonite, Appl. Clay Sci., 51 (2011) 198–201.
68. J.U.K. Oubagaranadin, Z. Murthy, Isotherm modeling and batch adsorbed design for the adsorption of Cu (II) on a clay containing montmorillonite, Appl. Clay Sci., 50 (2010) 409–413.
69. O. Redlich, D.L. Peterson, A useful adsorption isotherm, J. Phys. Chem., 63 (1959) 1024–1024.
70. M. Brdar, M. Šćiban, A. Takači, T. Došenović, Comparison of two and three parameters adsorption isotherm for Cr (VI) onto Kraft lignin, Chem. Eng. J., 183 (2012) 108–111.
71. K. Foo, B. Hameed, Insights into the modeling of adsorption isotherm systems, Chem. Eng. J., 156 (2010) 2–10.
72. R. Sips, Combined form of Langmuir and Freundlich equations, J. Chem. Phys., 16 (1948) 490–495.
73. J. Liu, J. Si, Q. Zhang, J. Zheng, C. Han, G. Shao, Preparation of negatively charged hybrid adsorbents and their applications for Pb²⁺ removal, Ind. Eng. Chem. Res., 50 (2011) 8645–8657.