References

1. Z. Fang, J. Chen, X. Qiu, X. Qiu, W. Cheng, L. Zhu, Effective removal of antibiotic metronidazole from water by nanoscale zero-valent iron particles, Desalination, 268 (2011) 60–67.
2. H. Dong, X. Yuan, W. Wang, Z. Qiang, Occurrence and removal of antibiotics in ecological and conventional wastewater treatment processes, J. Environ. Manage., 178 (2016) 11–19.
3. R. Lindberg, P.-Å. Jarnheimer, B. Olsen, M. Johansson, M. Tysklind, Determination of antibiotic substances in hospital sewage water using solid phase extraction and liquid chromatography/mass spectrometry and group analogue internal standards, Chemosphere, 57 (2004) 1479–1488.
4. M. Sui, S. Xing, L. Sheng, S. Huang, H. Guo, Heterogeneous catalytic ozonation of ciprofloxacin in water with carbon nanotube supported manganese oxides as catalyst, J. Hazard. Mater., 227 (2012) 227–236.
5. P. Liu, H. Zhang, Y. Feng, F. Yang, J. Zhang, Removal of trace antibiotics from wastewater: a systematic study of nanofiltration combined with ozone-based advanced oxidation processes, Chem. Eng. J., 240 (2014) 211–220.
6. A. Bendesky, D. Menéndez, P. Ostrosky-Wegman, Is metronidazole carcinogenic?, Mutat. Res. Rev. Mutat. Res., 511 (2002) 133–144.
7. H. Shemer, Y.K. Kunukcu, K.G. Linden, Degradation of the pharmaceutical metronidazole via UV, Fenton and photo- Fenton processes, Chemosphere, 63 (2006) 269–276.
8. K. Kümmerer, A. Al-Ahmad, V. Mersch-Sundermann, Biodegradability of some antibiotics, elimination of the genotoxicity and affection of wastewater bacteria in a simple test, Chemosphere, 40 (2000) 701–710.
9. J.D. Méndez-Díaz, G. Prados-Joya, J. Rivera-Utrilla, R. Leyva-Ramos, M. Sánchez-Polo, M.A. Ferro-García, N.A. Medellín-Castillo, Kinetic study of the adsorption of nitroimidazole antibiotics on activated carbons in aqueous phase, J. Colloid Interface Sci., 345 (2010) 481–490.
10. W. Cheng, M. Yang, Y. Xie, B. Liang, Z. Fang, E.P. Tsang, Enhancement of mineralization of metronidazole by the electro- Fenton process with a Ce/SnO₂–Sb coated titanium anode, Chem. Eng. J., 220 (2013) 214–220.
11. F. Ingerslev, L. Toräng, M.L. Loke, B. Halling-Sørensen, N. Nyholm, Primary biodegradation of veterinary antibiotics in aerobic and anaerobic surface water simulation systems, Chemosphere, 44 (2001) 865–872.
12. H. Liu, W. Liu, J. Zhang, L. Ren, Y. Li, Removal of cephalexin from aqueous solutions by original and Cu(II)/Fe(III) impregnated activated carbons developed from lotus stalks kinetics and equilibrium studies, J. Hazard. Mater., 185 (2011) 1528–1535.
13. L. Ai, J. Jiang, Fast removal of organic dyes from aqueous solutions by AC/Ferro spinel composite, Desalination, 262 (2010) 134–140.
14. D. Mohan, A. Sarswat, V.K. Singh, M. Alexandre-Franco, C.U. Pittman Jr, Development of magnetic activated carbon from almond shells for trinitrophenol removal from water, Chem. Eng. J., 172 (2011) 1111–1125.
15. B. Kakavandi, A. Jonidi, R. Rezaei, S. Nasseri, A. Ameri, A. Esrafily, Synthesis and properties of Fe₃O₄-activated carbon magnetic nanoparticles for removal of aniline from aqueous solution: equilibrium, kinetic and thermodynamic studies, Iran. J. Environ. Health Sci. Eng., 10 (2013) 1–9, doi: 10.1186/1735-2746-10-19.
16. J. Hu, I.M. Lo, G. Chen, Comparative study of various magnetic nanoparticles for Cr(VI) removal, Sep. Purif. Technol., 56 (2007) 249–256.
17. M.J. Ahmed, S.K. Theydan, Microporous activated carbon from siris seed pods by microwave-induced KOH activation for metronidazole adsorption, J. Anal. Appl. Pyrolysis, 99 (2013) 101–109.
18. J. Yang, X. Wang, M. Zhu, H. Liu, J. Ma, Investigation of PAA/PVDF–NZVI hybrids for metronidazole removal: synthesis, characterization, and reactivity characteristics, J. Hazard. Mater., 264 (2014) 269–277.
19. M. Ozmen, K. Can, G. Arslan, A. Tor, Y. Cengeloglu, M. Ersoz, Adsorption of Cu(II) from aqueous solution by using modified Fe₃O₄ magnetic nanoparticles, Desalination, 254 (2010) 162–169.
20. N. Nasseh, B. Barikbin, L. Taghavi, M.A. Nasseri, Adsorption of metronidazole antibiotic using a new magnetic nanocomposite from simulated wastewater (isotherm, kinetic and thermodynamic studies), Composites, Part B, 159 (2019) 146–156.
21. B. Kakavandi, R. RezaeiKalantary, A. JonidiJafari, A. Esrafily, A. Gholizadeh, A. Azari, Efficiency of powder activated carbon magnetized by Fe₃O₄ nanoparticles for amoxicillin removal from aqueous solutions: equilibrium and kinetic studies of adsorption process, Iran. J. Health Environ., 7 (2014) 21–34.
22. J. Chen, X. Qiu, Z. Fang, M. Yang, T. Pokeung, F. Gu, W. Cheng, B. Lan, Removal mechanism of antibiotic metronidazole from aquatic solutions by using nanoscale zero-valent iron particles, Chem. Eng. J., 181 (2012) 113–119.
23. J. Rivera-Utrilla, M. Sánchez-Polo, M.A. Ferro-Garcíal, I.B. Bautista-Toledo, Removal of nitroimidazole antibiotics from aqueous solution by adsorption/bioadsorption on activated carbon, J. Hazard. Mater., 170 (2009) 298–305.
24. A. Abdoli, R. Shokuhi, M.A. Seid, G. Asghari, Survey of catalytic o zonation process with MgO-modified activated carbon for the removal of metronidazole from aqueous solutions through a fluidized bed reactor, J. Sabzevar Univ. Med. Sci., 23 (2016) 84–94.
25. S. Salehnia, B. Barikbin, H. Dorri, The efficiency of magnetic carbon activated by iron oxide nanoparticles in removing of Cu(II) from aqueous solutions, J. Birjand Univ. Med. Sci., 23 (2016) 44–55.
26. M.J. Alowitz, M.M. Scherer, Kinetics of nitrate, nitrite, and Cr(VI) reduction by iron metal. Environ. Sci. Technol., 36 (2002) 299–306.
27. S.A.A. Taghizadeh, M. Khodadadi, T. Shahriary, H. Dorri, M. Zaferanieh, R. Khosravi, Investigation of hexavalent chromium removal from synthetic wastewater by using Peganum harmala granular, J. Birjand Univ. Med Sci., 19 (2012) 173–181.
28. T. Altun, E. Pehlivan, Removal of Cr(VI) from aqueous solutions by modified walnut shells, Food Chem., 132 (2012) 693–700.
29. H.Z. Shahmohammadi, Lead removal from aqueous solutions using low-cost adsorbents, Water Wastewater, 21 (2010) 45–50.
30. F. Bahrami Asl, M. Kermani, M. Farzadkia, A. Esrafili, S.S. Arian, A. Mokammel, D. Zeynalzadeh, Removal of metronidazole from aqueous solution using ozonation process, J. Mazandaran Univ. Med. Sci., 24 (2015) 131–140.
31. A. Seidmohammadi, G. Asgari, L. Torabi, Removal of metronidazole using ozone activated persulfate from aqua solutions in presence of ultrasound, J. Mazandaran Univ. Med. Sci., 26 (2016) 160–173.
32. C. Hu, J. Deng, Y. Zhao, L. Xia, K. Huang, S. Ju, N. Xiao, A novel core-shell magnetic nano-sorbent with surface molecularly imprinted polymer coating for the selective solid phase extraction of dimetridazole, Food Chem., 158 (2014) 366–373.
33. H.Y. Zhu, R. Jiang, L. Xiao, G.M. Zeng, Preparation, characterization, adsorption kinetics and thermodynamics of novel magnetic chitosan enwrapping nano sized g³–Fe₂O₃ and multiwalled carbon nanotubes with enhanced adsorption properties for methyl orange, Bioresour. Technol., 101 (2010) 5063–5069.
34. B.K. Nandi, A. Goswami, M.K. Purkait, Adsorption characteristics of brilliant green dye on kaolin, J. Hazard. Mater., 161 (2009) 387–395.
35. M.A. Zazouli, Z. Yousefi, M. Taghavi, B. Akbari-Adergani, J. Yazdani Cherati, Removing cadmium from aqueous environments using L-cysteine functionalized single-walled carbon nanotubes, J. Mazandaran Univ. Med. Sci., 23 (2013) 37–47.
36. E.K. Putra, R. Pranowo, J. Sunarso, N. Indraswati, S. Ismadji, Performance of activated carbon and bentonite for adsorption of amoxicillin from wastewater: mechanisms, isotherms and kinetics, Water Res., 43 (2009) 2419–2430.
37. D.H. Carrales-Alvarado, R. Ocampo-Pérez, R. Layva-Ramos, J. Rivera-Utrilla, Removal of the antibiotic metronidazole by adsorption on various carbon materials from aqueous phase, J. Colloid Interface Sci., 436 (2014) 276–285.
38. T. Farías, L.C. de Ménorval, J. Zajac, Adsolubilization of drugs onto natural clinoptilolite modified by adsorption of cationic surfactants, Colloids Surf., B, 76 (2010) 421–426.
39. H.K.A. Hussein, W.A. Jalil, I. Fadhel, Efficacy of attapulgite clay as adsorbent for metronidazole drug overdose in vitro, Natl. J. Chem., 20 (2005) 529–539.