References

1. A. Rhmani, J. Mehralipour, A. Shabanlo, S. Majidi, Efficiency of ciprofloxacin removal by ozonation process with calcium peroxide from aqueous solutions, J. Qazvin Univ. Med. Sci., 19 (2015) 55–64.
2. M. Malakootian, M. Nori Sepehr, S. Bahraini, M. Zarrabi, Capacity of natural and modified zeolite with cationic surfactant in removal of antibiotic tetracycline from aqueous solutions, Koomesh, 17 (2016) 779–788.
3. A.L. Capriotti, C. Cavaliere, S. Piovesana, R. Samperi, A. Laganà, Multiclass screening method based on solvent extraction and liquid chromatography–tandem mass spectrometry for the determination of antimicrobials and mycotoxins in egg, J. Chromatogr. A, 1268 (2012) 84–90.
4. S. Bajpai, N. Chand, M. Mahendra, The adsorptive removal of a cationic drug from aqueous solution using poly (methacrylic acid) hydrogels, Water SA, 40 (2014) 49–56.
5. A. Prieto, M. Möder, R. Rodil, L. Adrian, E. Marco-Urrea, Degradation of the antibiotics norfloxacin and ciprofloxacin by a white-rot fungus and identification of degradation products, Bioresour. Technol., 102 (2011) 10987–10995.
6. T. An, H. Yang, G. Li, W. Song, W.J. Cooper, X. Nie, Kinetics and mechanism of advanced oxidation processes (AOPs) in degradation of ciprofloxacin in water, Appl. Catal., B, 94 (2010) 288–294.
7. F. Yuan, C. Hu, X. Hu, J. Qu, M. Yang, Degradation of selected pharmaceuticals in aqueous solution with UV and UV/H₂O₂, Water Res., 43 (2009) 1766–1774.
8. R. Darvishi Cheshmeh Soltani, A. Rezaee, M. Safari, A. Khataee, B. Karimi, Photocatalytic degradation of formaldehyde in aqueous solution using ZnO nanoparticles immobilized on glass plates, Desal. Wat. Treat., 53 (2015) 1613–1620.
9. S.S. Kavurmaci, M. Bekbolet, Photocatalytic degradation of humic acid in the presence of montmorillonite, Appl. Clay Sci., 75 (2013) 60–66.
10. T.H. Lim, S.D. Kim, Photocatalytic degradation of trichloroethylene over TiO₂/SiO₂ in an annulus fluidized bed reactor, Korean J. Chem. Eng., 19 (2002) 1072–1077.
11. M. El-Kemary, H. El-Shamy, I. El-Mehasseb, Photocatalytic degradation of ciprofloxacin drug in water using ZnO nanoparticles, J. Lumin., 130 (2010) 2327–2331.
12. M.N. Chong, B. Jin, C.W. Chow, C. Saint, Recent developments in photocatalytic water treatment technology: a review, Water Res., 44 (2010) 2997–3027.
13. N. Daneshvar, D. Salari, A. Khataee, Photocatalytic degradation of azo dye acid red 14 in water on ZnO as an alternative catalyst to TiO₂, J. Photochem. Photobiol., A, 162 (2004) 317–322.
14. R. Hong, J. Li, L. Chen, D. Liu, H. Li, Y. Zheng, J. Ding, Synthesis, surface modification and photocatalytic property of ZnO nanoparticles, Powder Technol., 189 (2009) 426–432.
15. G. Huang, X. Wu, Y. Cheng, J. Shen, A. Huang, P. Chu, Fabrication and characterization of anodic ZnO nanoparticles, Appl. Phys. B, 86 (2007) 463–467.
16. M. Janus, E. Kusiak-Nejman, A.W. Morawski, Determination of the photocatalytic activity of TiO₂ with high adsorption capacity, React. Kinet. Mech. Catal., 103 (2011) 279–288.
17. J.R. Peralta-Videa, L. Zhao, M.L. Lopez-Moreno, G. de la Rosa, J. Hong, J.L. Gardea-Torresdey, Nanomaterials and the environment: a review for the biennium 2008–2010, J. Hazard. Mater., 186 (2011) 1–15.
18. A. Akyol, H. Yatmaz, M. Bayramoglu, Photocatalytic decolorization of Remazol Red (RR) in aqueous ZnO suspensions, Appl. Catal., B, 54 (2004) 19–24.
19. M.A. Behnajady, N. Modirshahla, M. Mirzamohammady, B. Vahid, B. Behnajady, Increasing photoactivity of titanium dioxide immobilized on glass plate with optimization of heat attachment method parameters, J. Hazard. Mater., 160 (2008) 508–513.
20. A. Khataee, M.N. Pons, O. Zahraa, Photocatalytic degradation of three azo dyes using immobilized TiO₂ nanoparticles on glass plates activated by UV light irradiation: influence of dye molecular structure, J. Hazard. Mater., 168 (2009) 451–457.
21. T. An, W. Zhang, X. Xiao, G. Sheng, J. Fu, X. Zhu, Photoelectrocatalytic degradation of quinoline with a novel three-dimensional electrode-packed bed photocatalytic reactor, J. Photochem. Photobiol. A, 161 (2004) 233–242.
22. H.-Y. Zhu, L. Xiao, R. Jiang, G.-M. Zeng, L. Liu, Efficient decolorization of azo dye solution by visible light-induced photocatalytic process using SnO₂/ZnO heterojunction immobilized in chitosan matrix, Chem. Eng. J., 172 (2011) 746–753.
23. H. Doan, M. Saidi, Simultaneous removal of metal ions and linear alkylbenzene sulfonate by combined electrochemical and photocatalytic process, J. Hazard. Mater., 158 (2008) 557–567.
24. M. Malakootian, S. Dowlatshahi, M.H. Cholicheh, Reviewing the photocatalytic processes efficiency with and without hydrogen peroxide in cyanide removal from aqueous solutions, J. Mazandaran Univ. Med. Sci., 23 (2013) 69–78.
25. M. Malakootian, M. Hashemi Cholicheh, Efficacy of photocatalytic processes using silica and zirconia nanoparticles in the bivalent nickel removal of aqueous solutions and determining the optimum removal conditions, J. Mazandaran Univ. Med. Sci., 22 (2012) 87–69.
26. M. Malakootian, A. Mesdaghinia, S. Rezaei, The photocatalytic removal of ortho chlorophenol from aqueous solution using modified fly ash – titanium dioxide, Q. Water Wastewater, 27 (2016) 14–21.
27. M. Fathinia, A. Khataee, M. Zarei, S. Aber, Comparative photocatalytic degradation of two dyes on immobilized TiO₂ nanoparticles: effect of dye molecular structure and response surface approach, J. Mol. Catal. A, 333 (2010) 73–84.
28. A.D. Eaton, L.S. Clesceri, A.E. Greenberg, M.A.H. Franson, American Public Health Association, American Water Works Association, Water Environment Federation, Standard Methods for the Examination of Water and Wastewater, American Public Health Association, Washington, D.C., 1995.
29. E. Malkoc, Y. Nuhoglu, Nickel (II) adsorption mechanism from aqueous solution by a new adsorbent waste acorn of Quercus ithaburensis, Environ. Prog. Sustain. Energy, 29 (2010) 297–306.
30. A. Shafaei, M. Nikazar, M. Arami, Photocatalytic degradation of terephthalic acid using titania and zinc oxide photocatalysts: comparative study, Desalination, 252 (2010) 8–16.
31. D.L. Ross, C.M. Riley, Aqueous solubilities of some variously substituted quinolone antimicrobials, Int. J. Pharm., 63 (1990) 237–250.
32. D. Avisar, Y. Lester, H. Mamane, pH induced polychromatic UV treatment for the removal of a mixture of SMX, OTC and CIP from water, J. Hazard. Mater., 175 (2010) 1068–1074.
33. T.A. Gad-Allah, M.E. Ali, M.I. Badawy, Photocatalytic oxidation of ciprofloxacin under simulated sunlight, J. Hazard. Mater., 186 (2011) 751–755.
34. W.W. Ngah, M. Hanafiah, Adsorption of copper on rubber (Hevea brasiliensis) leaf powder: kinetic, equilibrium and thermodynamic studies, Biochem. Eng. J., 39 (2008) 521–530.
35. A.Y. Shan, T.I.M. Ghazi, S.A. Rashid, Immobilisation of titanium dioxide onto supporting materials in heterogeneous photocatalysis: a review, Appl. Catal. A, 389 (2010) 1–8.
36. S. Bekkouche, M. Bouhelassa, N.H. Salah, F. Meghlaoui, Study of adsorption of phenol on titanium oxide (TiO2), Desalination, 166 (2004) 355–362.
37. C.J. Wang, Z. Li, W.T. Jiang, J.-S. Jean, C.C. Liu, Cation exchange interaction between antibiotic ciprofloxacin and montmorillonite, J. Hazard. Mater., 183 (2010) 309–314.
38. G. Crini, P.M. Badot, Application of chitosan, a natural aminopolysaccharide, for dye removal from aqueous solutions by adsorption processes using batch studies: a review of recent literature, Prog. Polym. Sci., 33 (2008) 399–447.
39. W.T. Jiang, P.-H. Chang, Y.S. Wang, Y. Tsai, J.-S. Jean, Z. Li, K. Krukowski, Removal of ciprofloxacin from water by birnessite, J. Hazard. Mater., 250 (2013) 362–369.
40. Y. Zhao, F. Tong, X. Gu, C. Gu, X. Wang, Y. Zhang, Insights into tetracycline adsorption onto goethite: experiments and modeling, Sci. Total Environ., 470 (2014) 19–25.
41. M.S. Mansoury, H. Godini, G. Shams Khorramabadi, Photocatalytic removal of natural organic matter from aqueous solutions using zinc oxide nanoparticles immobilized on glass, Iran. J. Health Environ., 8 (2015) 181–190.
42. G. Safari, M. Hoseini, H. Kamali, R. Moradirad, A. Mahvi, Photocatalytic degradation of tetracycline antibiotic from aqueous solutions using UV/TiO₂ and UV/H₂O₂/TiO₂, J. Health, 5 (2014) 203–2013.
43. C.L. Zhang, G.L. Qiao, F. Zhao, Y. Wang, Thermodynamic and kinetic parameters of ciprofloxacin adsorption onto modified coal fly ash from aqueous solution, J. Mol. Liq., 163 (2011) 53–56.
44. N. Caner, I. Kiran, S. Ilhan, C.F. Iscen, Isotherm and kinetic studies of Burazol Blue ED dye biosorption by dried anaerobic sludge, J. Hazard. Mater., 165 (2009) 279–284.
45. M. Malakootian, S. Bahraini, M. Malakootian, M. Zarrabi, Removal of tetracycline antibiotic from aqueous solutions using natural and modified pumice with magnesium chloride, Adv. Environ. Biol., 10 (2016) 46–56.
46. M. Malakootian, F. Mansuri, Hexavalent chromium removal by titanium dioxide photocatalytic reduction and the effect of phenol and humic acid on its removal efficiency, Int. J. Environ. Health Eng., 4 (2015) 19.
47. O. Gulnaz, A. Sahmurova, S. Kama, Removal of Reactive Red 198 from aqueous solution by Potamogeton crispus, Chem. Eng. J., 174 (2011) 579–585.
48. M.A. Behnajady, S. Bimeghdar, Synthesis of mesoporous NiO nanoparticles and their application in the adsorption of Cr (VI), Chem. Eng. J., 239 (2014) 105–113.
49. H. Chen, B. Gao, H. Li, Removal of sulfamethoxazole and ciprofloxacin from aqueous solutions by graphene oxide, J. Hazard. Mater., 282 (2015) 201–207.
50. E.S.I. El-Shafey, H. Al-Lawati, A.S. Al-Sumri, Ciprofloxacin adsorption from aqueous solution onto chemically prepared carbon from date palm leaflets, J. Environ. Sci., 24 (2012) 1579–1586.
51. S. Khezrianjoo, H. Revanasiddappa, Langmuir-Hinshelwood kinetic expression for the photocatalytic degradation of Metanil Yellow aqueous solutions by ZnO catalyst, Chem. Sci. J., 3 (2012) 1–9.
52. M. Malakootian, M. Pourshaban-Mazandarani, H. Hossaini, M.H. Ehrampoush, Preparation and characterization of TiO₂ incorporated 13X molecular sieves for photocatalytic removal of acetaminophen from aqueous solutions, Process. Saf. Environ. Prot., 104 (2016) 334–345.
53. Y.S. Ho, G. McKay, Pseudo-second order model for sorption processes, Process Biochem., 34 (1999) 451–465.
54. M. Malakootian, D. Balarak, Y. Mahdavi, S. Sadeghi, N. Amirmahani, Removal of antibiotics from wastewater by Azolla filiculoides: kinetic and equilibrium studies, Int. J. Anal. Pharm. Biomed. Sci., 4 (2015) 105–113.
55. G. Moussavi, A. Alahabadi, K. Yaghmaeian, M. Eskandari, Preparation, characterization and adsorption potential of the NH₄Cl-induced activated carbon for the removal of amoxicillin antibiotic from water, Chem. Eng. J., 217 (2013) 119–128.
56. 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.