References

1. A. Manikandan, M. Durka, M.A. Selvi, S.A. Antony, Sesamum indicum plant extracted microwave combustion synthesis and opto-magnetic properties of spinel Mn_xCo_1–xAl₂O₄ nanocatalysts, J. Nanosci. Nanotechnol., 16 (2015) 448–456.
2. A. Manikandan, M. Durka, M.A. Selvi, S.A. Antony, Aloe vera plant extracted green synthesis, structural and opto-magnetic characterizations of spinel Co_(x)Zn_1–xAl₂O₄ nano-catalysts, J. Nanosci. Nanotechnol., 16 (2016) 357–373.
3. P. Bhavani, A. Manikandan, P. Paulraj, A. Dinesh, M. Durka, S.A. Antony, Okra (Abelmoschus esculentus) plant extractassisted combustion synthesis and characterization studies of spinel ZnAl₂O₄ nano-catalysts, J. Nanosci. Nanotechnol., 18 (2018) 4072–4081.
4. N. Babitha; L.S. Priya, S.R. Christy, A. Manikandan, A. Dinesh, M. Durka, S. Arunadevi, Enhanced antibacterial activity and photo-catalytic properties of ZnO nanoparticles: pedalium murex plant extract-assisted synthesis, J. Nanosci. Nanotechnol., 19 (2019) 2888–2894.
5. G. Jiao, A. Kermanshahi pour, Extraction of anthocyanins from haskap berry pulp using supercritical carbon dioxide: influence of co-solvent composition and pretreatment, LWT Food Sci. Technol., 98 (2018) 237–244.
6. C.G. Grigoras, E. Destandau, S. Zubrzycki, C. Elfakir, Sweet cherries anthocyanins: an environmental friendly extraction and purification method, Sep. Purif. Technol., 100 (2012) 51–58.
7. A.S. Lima, C.M.F. Soares, R. Paltram, H. Halbwirth, K. Bica, Extraction and consecutive purification of anthocyanins from grape pomace using ionic liquid solutions, Fluid Phase Equilib., 451 (2017) 68–78.
8. Y. Kohno, Y. Kato, M. Shibata, C. Fukuhara, Y. Maeda, Y. Tomita, K. Kobayashi, Enhanced stability of natural anthocyanin incorporated in Fe-containing mesoporous silica, Microporous Mesoporous Mater., 203 (2015) 232–237.
9. C. Capello, G.L. Coelho, C.E.M. Campos, D. Hotza, B.A.M. Carciofi, G.A. Valencia, Adsorption and desorption of eggplant peel anthocyanins on a synthetic layered silicate, J. Food Eng., 262 (2019) 162–169.
10. V.L. Carvalho, J.O. Goncalves, A. Silva, T.R. Cadaval Jr., L.A.A. Pinto, T.J. Lopes, Separation of anthocyanins extracted from red cabbage by adsorption onto chitosan films, Int. J. Biol. Macromol., 131 (2019) 905–911.
11. C. Xiu-Lian, D. Wang, C. Bi-Yun, F. Yong-Mei, W. Shao-Hong, Z. Peng-Yuan, Adsorption and desorption properties of macroporous resins for anthocyanins from the calyx extract of roselle (Hibiscus sabdariffa L.), J. Agric. Food. Chem., 60 (2012) 2368−2376.
12. A. Baran Das, V.V. Goud, C. Das, Adsorption/desorption, diffusion, and thermodynamic properties of anthocyanin from purple rice bran extract on various adsorbents, J. Food Process Eng., 41 (2018) e12834. https://doi.org/10.1111/jfpe.12834
13. E. Bertoft, Analyzing Starch Structure, A.C. Eliasson, Ed., Starch in Food. Structure, Function and Applications, CRC Press, New York, 2004, pp. 57–96.
14. B.M. Babić, S.K. Milonjić, M.J. Polovina, B.V. Kaludierović, Point of zero charge and intrinsic equilibrium constants of activated carbon cloth, Carbon, 37 (1999) 477–481.
15. J.W. Shim, S.J. Park, S.K. Ryu, Effect of modification with HNO₃ and NaOH on metal adsorption by pitch-based activated carbon fibers, Carbon, 39 (2001) 1635–1642.
16. C. Moreno-Castilla, E. Carrasco-Marín, E. Utrera-Hidalgo, J. Rivera-Utrilla, Activated carbons as adsorbents of SO₂ in flowing air. Effect of their pore texture and surface basicity, Langmuir, 9 (1993) 1378–1383.
17. T. Teka, S. Enyew, Study on effect of different parameters on adsorption efficiency of low cost activated orange peels for the removal of methylene blue dye, Int. J. Innovation Sci. Res., 8 (2014) 106–111.
18. B.H. Hameed, D.K. Mahmoud, A.L. Ahmad, Equilibrium modeling and kinetic studies on the adsorption of basic dye by a low-cost adsorbent: coconut (Cocos nucifera) bunch waste, J. Hazard. Mater., 158 (2008) 65–72.
19. B.B. Mamba, N.P. Dlamin, A.F. Mulaba–Bafubiandi, Biosorptive removal of copper and cobalt from aqueous solutions: Shewanella spp. put to the test, Phys. Chem. Earth., 34 (2009) 841–849.
20. J.W. Weber, P.M. McGinley, L.E. Katz, Sorption in subsurface systems: concept, models and effects on contaminant fate and transport, Water Res., 25 (1991) 499–528.
21. Z.P. Gao, Z.F. Yu, T.L. Yue, S.Y. Quek, Adsorption isotherm, thermodynamics and kinetics studies of polyphenols separation from kiwifruit juice using adsorbent resin, J. Food Eng., 116 (2013) 195–201.
22. N. Gandhi, D. Sirisha, K.B. Chandra Sekhar, Adsorption of fluoride (F^–) from aqueous solution by using pineapple (Ananas comosus) peel and orange (Citrus sinensis) peel powders, Int. J. Environ. Biorem. Biodegrad., 4 (2016) 55–67.
23. M.I. Tempkin, V. Pyzhev, Kinetics of ammonia synthesis on promoted iron catalyst, Acta Phy. Chem., 12 (1940) 327–356.
24. Y.S. HO, Citation review of Lagergren kinetic rate equation on adsorption reactions, Scientometrics, 59 (2004) 171–177.
25. M. Asgher, H.N. Bhatti, Mechanistic and kinetic evaluation of biosorption of reactive azo dyes by free, immobilized and chemically treated Citrus sinensis waste biomass, Ecol. Eng., 36 (2010) 1660–1665.
26. Y.S. Ho, Review of second-order models for adsorption systems, J. Hazard. Mater., 136 (2006) 6681–689.
27. Y.S. Ho, G. McKay, A comparison of chemisorption kinetic models applied to pollutant removal on various sorbents, Process Saf. Environ. Prot., 76 (1998) 332–340.
28. M.H. Kalavathy, T. Karthikeyan, S. Rajgopal, L.R. Miranda, Kinetic and isotherm studies of Cu(II) adsorption onto H₃PO₄ activated rubber wood sawdust, J. Colloid Interface Sci, 292 (2005) 354–362.
29. S. Liang, X. Guo, N. Feng, Q. Tian, Isotherms, kinetics and thermodynamic studies of adsorption of Cu²⁺ from aqueous solutions by Mg²⁺/K⁺ type orange peel adsorbents, J. Hazard. Mater., 174 (2010) 756–762.
30. F.C. Wu, R.L. Tseng, R.S. Juang, Characteristics of Elovich equation used for the analysis of adsorption kinetics in dyechitosan systems, Chem. Eng. J., 150 (2009) 366–373.
31. Y. Chen, W. Zhang, T. Zhao, F. Li, M. Zhang, J. Li, L. Yang, Adsorption properties of macroporous adsorbent resins for separation of anthocyanins from mulberry, Food Chem., 194 (2016) 712–722.
32. J. Lee, R.W. Durst, R.E. Wrolstad, Determination of total monomeric anthocyanin pigment content of fruit juices, beverages, natural colorants, and wines by the pH differential method: collaborative study, J. AOAC Int., 88 (2005) 1269−1278.
33. M. Turturică, A.M. Oancea, G. Râpeanu, G. Bahrim, Anthocyanins: naturally occurring fruit pigments with functional properties, Ann Univ Dunarea de Jos Galati. Fascicle VI, Food Technol., 39 (2015) 9–24.
34. C. Beye, L.S. Tounkara, J. Destain, S. Zgoulli, A.S. Ndoye, P. Thonart, Study of the sorption behavior of Hibiscus sabdariffa anthocyanins on a macroporous resin, J. Food Process Eng., 36 (2013) 579–590.