References

1. Y. Gao, Y. Li, L. Zhang, H. Huang, J. Hu, S. Mazhar, X. Su, Adsorption and removal of tetracycline antibiotics from aqueous solution by graphene oxide, J. Colloid Interface Sci., 368 (2012) 540–546.
2. Y. Wang, H. Zhang, J. Zhang, C. Lu, Q. Huang, J. Wu, F. Liu, Degradation of tetracycline in aqueous media by ozonation in an internal loop-lift reactor, J. Hazard. Mater., 192 (2011) 35–43.
3. D. Zhang, J. Yin, J. Zhao, H. Zhu, C. Wang, Adsorption and removal of tetracycline from water by petroleum coke-derived highly porous activated carbon, J. Environ. Chem. Eng., 3 (2015) 1504–1512.
4. F. Güzel, H. Say, Adsorptive efficacy analysis of novel carbonaceous sorbent derived from grape industrial processing wastes towards tetracycline in aqueous solution, J. Taiwan Inst. Chem. Eng., 60 (2016) 236–240.
5. M. Rathod, S. Haldar, S. Basha, Nanocrystalline cellulose for removal of tetracycline hydrochloride from water via biosorption: equilibrium, kinetic and thermodynamic studies, Ecol. Eng., 84 (2015) 240–249.
6. Z. Zhang, H. Lan, H. Liu, J. Qu, Removal of tetracycline antibiotics from aqueous solution by amino-Fe (III) functionalized SBA15, Colloids Surf., A, 471 (2015) 133–138.
7. J. Jinhui, L. Kuili, F. Weiqiang, L. Meng, L. Yu, M. Baodong, B. Hongye, S. Hongqiang, Y. Songliu, S. Weidong, Electrospinning synthesis and photocatalytic property of Fe₂O₃/MgFe₂O₄ heterostructure for photocatalytic degradation of tetracycline, Mater. Lett., 176 (2016) 1–4.
8. C.H. Huang, K.P. Chang, H. De Ou, Y.C. Chiang, C.F. Wang, Adsorption of cationic dyes onto mesoporous silica, Microporous Mesoporous Mater., 141 (2011) 102–109.
9. Y. Zhang, Z. Jiao, Y. Hu, S. Lv, H. Fan, Y. Zeng, Removal of tetracycline and oxytetracycline from water by magnetic Fe₃O₄@graphene, Environ. Sci. Pollut. Res., 24 (2017) 2987–2995.
10. Y. Chen, L. Ding, J. Nie, Isotherm and thermodynamic studies of the biosorption of lead, cadmium and copper from aqueous solutions by rice bran, Desal. Wat Treat., 44 (2012) 168–173.
11. M.B. Ahmed, J.L. Zhou, H.H. Ngo, W. Guo, Adsorptive removal of antibiotics from water and wastewater: progress and challenges, Sci. Total Environ., 532 (2015) 112–126.
12. Y. Guo, W. Huang, B. Chen, Y. Zhao, D. Liu, Y. Sun, Removal of tetracycline from aqueous solution by MCM-41-zeolite A loaded nano zero valent iron: synthesis, characteristic, adsorption performance and mechanism, J. Hazard. Mater., 339 (2017) 22–32.
13. M.H. Beyki, H. Alijani, Y. Fazli, Solvent free synthesized MnFe₂O₄@polyamid resin as a novel green nanohybrid for fast removing Congo red, J. Mol. Liq., 216 (2016) 6–11.
14. H. Hadoun, Z. Sadaoui, N. Souami, D. Sahel, I. Toumert, Characterization of mesoporous carbon prepared from date stems by H₃PO₄ chemical activation, Appl. Surf. Sci., 280 (2013) 1–7.
15. Y. Zhai, Y. Dou, X. Liu, S.S. Park, C.S. Ha, D. Zhao, Soft-template synthesis of ordered mesoporous carbon/nanoparticle nickel composites with a high surface area, Carbon, 49 (2011) 545–555.
16. Z. Xie, D. Sheng, Ionic liquid based approaches to carbon materials synthesis, Eur. J. Inorg. Chem., 2015 (2015) 1137–1147.
17. D. Carriazo, M.C. Guti, M.L. Ferrer, F. Monte, Resorcinol-based deep eutectic solvents as both carbonaceous precursors and templating agents in the synthesis of hierarchical porous carbon monoliths, Chem. Mater., 22 (2010) 6146–6152.
18. Y.W. You, E.H. Moon, I. Heo, H. Park, J.S. Hong, J.K. Suh, Preparation and characterization of porous carbons from ion-exchange resins with different degree of cross-linking for hydrogen storage, J. Ind. Eng. Chem., 45 (2017) 164–170.
19. R. Li, A. Cao, Y. Zhang, G. Li, F. Jiang, S. Li, D. Chen, C. Wang, J. Ge, C. Shu, Formation of nitrogen-doped mesoporous graphitic carbon with the help of melamine, ACS Appl. Mater. Interfaces, 6 (2014) 20574–20578.
20. D. Hulicova, J. Yamashita, Y. Soneda, H. Hatori, M. Kodama, Supercapacitors prepared from melamine-based carbon, Chem. Mater., 17 (2005) 1241–1247.
21. J. Wei, D. Zhou, Z. Sun, Y. Deng, Y. Xia, D. Zhao, A controllable synthesis of rich nitrogen-doped ordered mesoporous carbon for CO₂ capture and supercapacitors, Adv. Funct. Mater., 23 (2013) 2322–2328.
22. M.J. Pirouz, M.H. Beyki, F. Shemirani, Anhydride functionalised calcium ferrite nanoparticles: a new selective magnetic material for enrichment of lead ions from water and food samples, Food Chem., 170 (2015) 131–137.
23. N. Farzin Nejad, E. Shams, M.K. Amini, J.C. Bennett, Synthesis of magnetic mesoporous carbon and its application for adsorption of dibenzothiophene, Fuel Process. Technol., 106 (2013) 376–384.
24. H. Liu, Y. Yang, J. Kang, M. Fan, J. Qu, Removal of tetracycline from water by Fe-Mn binary oxide, J. Environ. Sci., 24 (2012) 242–247.
25. L. Shao, Z. Ren, G. Zhang, L. Chen, Facile synthesis, characterization of a MnFe₂O₄/activated carbon magnetic composite and its effectiveness in tetracycline removal, Mater. Chem. Phys., 135 (2012) 16–24.
26. J. Chen, T. Xu, J. Ding, Y. Ji, P. Ni, Z. Li, Mn–Ce–Co complex oxide nanoparticles: hydrothermal synthesis and their catalytic subcritical oxidation of 4, 4-Dibromobiphenyl, J. Hazard. Mater., 235–236 (2012) 85–91.
27. H. Bel Hadjltaief, P. Da Costa, P. Beaunier, M.E. Gálvez, M. Ben Zina, Fe-clay-plate as a heterogeneous catalyst in photo-Fenton oxidation of phenol as probe molecule for water treatment, Appl. Clay Sci., 91–92 (2014) 46–54.
28. J.P. Pouget, M.E. Jozefowicz, J. Epstein, X. Tang, G. MacDiarmid, X-ray structure of polyaniline, Macromolecules, 24 (1991) 779–789.
29. H. Alijani, M.H. Beyki, Z. Shariatinia, M. Bayat, F. Shemirani, A new approach for one step synthesis of magnetic carbon nanotubes/diatomite earth composite by chemical vapor deposition method: application for removal of lead ions, Chem. Eng. J., 253 (2014) 456–463.
30. R. Snovski, J. Grinblat, M.T. Sougrati, J.C. Jumas, S. Margel, Synthesis and characterization of iron, iron oxide and iron carbide nanostructures, J. Magn. Magn. Mater., 349 (2014) 35–44.
31. H. Yan, J. Zhang, C. You, Z. Song, B. Yu, Y. Shen, Influences of different synthesis conditions on properties of Fe₃O₄ nanoparticles, Mater. Chem. Phys., 113 (2009) 46–52.
32. M.H. Beyki, H. Alijani, Y. Fazli, Optimization using response surface methodology for fast removal of hazardous azo dye by γ-Fe₂O₃@CuO nanohybrid synthesized by sol–gel combustion, Res. Chem. Intermed., 43 (2017) 6245–6257.
33. S.H. Hosseini, A. Asadnia, Synthesis, Characterization, and Microwave-absorbing properties of polypyrrole/MnFe₂O₄ nanocomposite, J. Nanomater., 2012 (2012) 1–6.
34. M. Khairy, M.E. Gouda, Electrical and optical properties of nickel ferrite/polyaniline nanocomposite, J. Adv. Res., 6 (2015) 555–562.
35. M. Hossein, F. Shemirani, J. Malakootikhah, S. Minaeian, Catalytic synthesis of graphene-like polyaniline derivative - MFe₂O₄ (M; Cu, Mn) nanohybrid as multifunctionality water decontaminant, React. Func. Polym., 125 (2018) 108–117.
36. M. Bayat, M.H. Beyki, F. Shemirani, One-step and biogenic synthesis of magnetic Fe₃O₄-Fir sawdust composite: application for selective preconcentration and determination of gold ions, J. Ind. Eng. Chem., 21 (2015) 912–919.
37. M. Thommes, K. Kaneko, A.V. Neimark, J.P. Olivier, F. Rodriguezreinoso, J. Rouquerol, K.S.W. Sing, Physisorption of gases, with special reference to the evaluation of surface area and pore size distribution (IUPAC Technical Report), Pure Appl. Chem., 87 (2015) 1051–1069.
38. A. Dabrowski, Adsorption, from theory to practice, Adv. Colloid Interface Sci., 93 (2001) 135–224.
39. M. Foroughi, A.R. Rahmani, G. Asgari, D. Nematollahi, K. Yetilmezsoy, Optimization of a three-dimensional electrochemical system for tetracycline degradation using Box-Behnken design, Fresenius Environ. Bull., 27 (2019) 1914–1922.
40. M. Foroughi, S. Chavoshi, M. Bagheri, K. Yetilmezsoy, M. Taghi, Alum-based sludge (AbS) recycling for turbidity removal in drinking water treatment: an insight into statistical, technical, and health-related standpoints, J. Mater. Cycles Waste Manage., 20 (2018) 1999–2017.
41. R. Khani, S. Sobhani, M.H. Beyki, Highly selective and efficient removal of lead with magnetic nano-adsorbent: multivariate optimization, isotherm and thermodynamic studies, J. Colloid Interface Sci., 466 (2016) 198–205.
42. M.H. Beyki, F. Feizi, F. Shemirani, Melamine-based dendronized magnetic polymer in the adsorption of Pb(II) and preconcentration of rhodamine B, React. Funct. Polym., 103 (2016) 81–91.
43. N. Tumin, A. Chuah, Adsorption of copper from aqueous solution by Elais Guineensis kernel activated carbon, J. Eng. Sci. Technol., 3 (2008) 180–189.
44. T.K. Naiya, A.K. Bhattacharya, S.K. Das, Clarified sludge (basic oxygen furnace sludge) - an adsorbent for removal of Pb(II) from aqueous solutions - kinetics, thermodynamics and desorption studies, J. Hazard. Mater., 170 (2009) 252–262.
45. L. You, C. Huang, F. Lu, A. Wang, X. Liu, Q. Zhang, Facile synthesis of high performance porous magnetic chitosan-polyethylenimine polymer composite for Congo red removal, Int. J. Biolog. Macromol., 107 (2018) 1620–1628.
46. K.Y. Foo, B.H. Hameed, Insights into the modeling of adsorption isotherm systems, Chem. Eng. J., 156 (2010) 2–10.
47. N. Ayawei, A.N. Ebelegi, D. Wankasi, Modelling and Interpretation of Adsorption Isotherms, J. Chem., 2017 (2017) 1–11.
48. A. Dada, A. Olalekan, A. Olatunya, O. Dada, Langmuir, Freundlich, Temkin and Dubinin–Radushkevich isotherms studies of equilibrium sorption of Zn²⁺ unto phosphoric acid modified rice husk, IOSR J. Appl. Chem., 3 (2012) 38–45.
49. B. Pan, B. Xing, Adsorption mechanisms of organic chemicals on carbon nanotubes, Environ. Sci. Technol., 42 (2008) 9005–9013.
50. J. Rivera-Utrilla, C.V. Gómez-Pacheco, M. Sánchez-Polo, J.J. López-Peñalver, R. Ocampo-Pérez, Tetracycline removal from water by adsorption/bioadsorption on activated carbons and sludge-derived adsorbents, J. Environ. Manage., 131 (2013) 16–24.
51. N. Kang, D.S. Lee, J. Yoon, Kinetic modeling of Fenton oxidation of phenol and monochlorophenols, Chemosphere, 47 (2002) 915–924.
52. Y. Fu, L. Peng, Q. Zeng, Y. Yang, H. Song, J. Shao, S. Liu, High efficient removal of tetracycline from solution by degradation and flocculation with nanoscale zerovalent iron, Chem. Eng. J., 270 (2015) 631–640.
53. B. Kakavandi, A. Takdastan, N. Jaafarzadeh, M. Azizi, A. Mirzaei, A. Azari, Application of Fe₃O₄@C catalyzing heterogeneous UV-Fenton system for tetracycline removal with a focus on optimization by a response surface method, J. Photochem. Photobiol, A: Chem., 314 (2016) 178–188.
54. Y. Chen, Y. Ma, J. Yang, L. Wang, J. Lv, C. Ren, Aqueous tetracycline degradation by H₂O₂ alone : removal and transformation pathway, Chem. Eng. J., 307 (2017) 15–23.
55. H. Wang, H. Yao, P. Sun, J. Pei, D. Li, C. Huang, Chemosphere oxidation of tetracycline antibiotics induced by Fe(III) ions without light irradiation, Chemosphere, 119 (2015) 1255–1261.
56. J. Cao, Z. Xiong, B. Lai, Effect of initial pH on the tetracycline (TC) removal by zero-valent iron : adsorption, oxidation and reduction, Chem. Eng. J., 343 (2018) 492–499.
57. D. Fu, Z. Chen, D. Xia, L. Shen, Y. Wang, Q. Li, A novel solid digestate-derived biochar-Cu NP composite activating H₂O₂ system for simultaneous adsorption and degradation of tetracycline, Environ. Pollut., 221 (2017) 301–310.