References

1. S. Ahmadi, A. Banach, F.K. Mostafapour, D. Balarak. Study survey of cupric oxide nano particles in removal efficiency of ciprofloxacin antibiotic from aqueous solution: adsorption isotherm study. Desal .Wat. Treat., 89 (2017) 297–303
2. S. Ahmadi, F.K. Mostafapour. Survey of efficiency of dissolved air flotation in removal penicillin G potassium from aqueous solutions. Br. J. Pharm. Res., 15 (2017) 1–11.
3. J.L. Martinez. Environmental pollution by antibiotics and by antibiotic resistance determinants. Environ. Pollut., 157 (2009) 2893–2902.
4. C. Yang, E. Cussler. Reactive extraction of penicillin G in hollow-fiber and hollow-fiber fabric modules. Biotechnol. Bioeng., 69 (2000) 66–73.
5. V. Homen, L. Santos. Degradation and removal methods of antibiotics from aqueous matrices a review. J. Environ. Manage., 92 (2011) 2304–2347.
6. Y. Han, X. Quan, S .Chen, H .Zhao, C. Cui, Y. Zhao. Electrochemically enhanced adsorption of aniline on activated carbon fibers. Sep. Purif. Technol., 50 (2006) 365–372.
7. Sh. Ahmadi, E. Bazrafshan, F.K. Mostafapoor, Treatment of landfill leachate using a combined coagulation and modify bentonite adsorption processes, J. Sci. Eng. Res., 4 (2017) 58–64.
8. A. Fakhri. Adsorption characteristics of graphene oxide as a solid adsorbent for aniline removal from aqueous solutions: Kinetics, thermodynamics and mechanism studies. J. Saudi Chem. Society, 21 ( 2017) S52–S57
9. H.T. Gomes, P. Selvam, S.E. Dapurkar, J.L. Figueiredo, J.L. Faria. Transition metal (Cu, Cr, and V) modified MCM-41 for the catalytic wet air oxidation of aniline. Micropor. Mesopor. Mater., 86 (2005) 287–294.
10. F.K. Mostafapour, Sh. Ahmadi, D. Balarak, S. Rahdar, Comparison of dissolved air flotation process function for aniline and penicillin G removal from aqueous solutions, Sci. J. Hamadan Univ. Med. Sci., 23 (2017) 360–369.
11. V. Homem, A. Alves, L. Santos, Microwave-assisted Fenton’s oxidation of amoxicillin. Chem. Eng. J., 220 (2013) 35–44.
12. H.M. Safari, H. Kamali, R. Moradirad, A.H. Mahvi. Photo catalytic degradation of tetracycline antibiotic from aqueous solutions using UV/TiO₂ and UV/H₂O₂/TiO₂. Iran J. Health . Environ., 5 (2014) 203–2013.
13. V.K. Gupta, A. Fakhri, A.K. Bharti, S. Agarwal, M. Naji. Optimization by response surface methodology for vanadium (V) removal from aqueous solutions using PdO-MWCNTs nano composites., J. Molec. Liq., 234 (2017) 117–123
14. K. Kümmerer. Antibiotics in the aquatic environment – A review – Part I. Chemosphere, 75 (2009) 417–434.
15. I. Michael, L. Rizzo, C.S. McArdell, C.M. Manaia, C. Merlin, T. Schwartz, Urban wastewater treatment plants as hot spots for the release of antibiotics in the environment: A review. Water Res., 47 (2013) 957–995.
16. R.J. Emery, M. Papadaki, L.M. Freitas dos Santos, D. Mantzavinos. Extent of sonochemical degradation and change of toxicity of a pharmaceutical precursor (triphenylphosphine oxide) in water as a function of treatment conditions. Environ. Int., 31 (2005) 207–211.
17. N.K. Nga, P.T.T. Hong, T.D. Lam, T.Q. Huy. A facile synthesis of nano structured magnesium oxide particles for enhanced adsorption performance in reactive blue 19 removal. Curr Opin Colloid Interface Sci., 398 (2013) 210–216.
18. N. Khoshnamvand, S. Ahmadi, F.K. Mostafapour, Kinetic and isotherm studies on ciprofloxacin an adsorption using magnesium oxide nano partices. J. Appl. Pharm. Sci., 7 (2017) 079–083.
19. L. Mohamadi, E. Bazrafshan, M. Noroozifar, A. Ansari-Moghaddam, Ethyl benzene removal from aqueous environments by catalytic ozonation process using MgO nano particles, J. Mazandaran Univ. Med. Sci., 26 (2016) 129–144.
20. Sh. Ahmadi, F.K. Mostafapour, E. Bazrafshan, Removal of aniline and from aqueous solutions by coagulation/flocculation flotation, Chem. Sci. Int. J., 18 (2017) 1–10.
21. S. Ahmadi, F.K. Mostafapour, Adsorptive removal of aniline from aqueous solutions by Pistacia atlantica (Baneh) shells: isotherm and kinetic studies. J. Sci. Technol. Environ. Inform., 5 (2017) 327–335.
22. M. Tajbakhsh, M. Farhang, A. Hosseini, MgO nano particles as an efficient and reusable catalyst for aza-Michael reaction, J. Iran. Chem. Soc., 11 (2014) 665–672.
23. M. Hoseini, Gh. H. Safari, H. Kamani, J. Jaafari, A.H. Mahvi, Survey on removal of tetracycline antibiotic from aqueous solutions by nano-sonochemical process and evaluation of the influencing parameters. Iran. J. Health. Environ., 8 (2015) 142–151
24. E. Hapeshi, A. Achilleos, M. I. Vasquez, C. Michael, N. P. Xekoukoulotakis, D. Mantzavinos, et al. Drugs degrading photocatalytically: Kinetics and mechanisms of ofloxacin and atenolol removal on titania suspensions. Wat. Res., 44 (2010) 1737-46.
25. R. Daghrir, P. Drogui, K. Ibrahim, A.E. Khakani, Photo electro catalytic degradation of chlortetracycline using Ti/TiO₂ nano structured electrodes deposited by means of a pulsed laser deposition process. J. Hazard. Mater., 199 (2010) 15–24.
26. M. NooriSepehr, T.J. Al-Musawi, E. Ghahramani, H. Kazemian, Adsorption performance of magnesium/aluminum layered double hydroxide nano particles for metronidazole from aqueous solution. Arabian J. Chemistry, 10 (2017) 611–623
27. S. Esplugas, J. Gimenez, S. Contreras, E. Pascual, M .Rodriguez: Comparison of different advanced oxidation processes for phenol degradation. Water Res., 36 (2002) 1034–1042.
28. E. Elmolla, M. Chaudhuri, Photo catalytic degradation of amoxicillin, ampicillin and cloxacillin antibiotics in aqueous solution using UV/TiO₂ and UV/H₂O₂/TiO₂ photo catalysis. Desalination, 252 (2010) 46–52.
29. G.T. Guyer, N.H. Ince. Degradation of diclofenac in water by homogeneous and heterogeneous sonolysis. Ultrason Sonochem., 18 (2009) 114–119.
30. M. Salehi, H. Hashemipour, M. Mirzaee .Experimental study of influencing factors and kinetics in catalytic removal of methylene blue with TiO₂ nano powder. Amer. J. Environ. Eng., 2 (2012) 1–7.
31. L. Sanchez-Prado, R. Barro, C. Garcia-Jares, M. Llompart, M. Lores, C. Petrakis. Sonochemical degradation of triclosan in water and wastewater Ultrason Sonochem., 15 (2008) 689–694.
32. H. Kamani, E. Bazrafshan, S.D. Ashrafi, F. Sancholi, Efficiency of sono-nano-catalytic process of TiO₂ nano-particle in removal of erythromycin and metronidazolefrom aqueous solution., J Mazandaran Univ. Med. Sci., 27 (2017) 140–154.
33. M.R. Khataminejad, R. Mirnejad, M. Sharif, M. Hashemi, N. Sajadi, V. Piranfar, Antimicrobial effect of imipenem-functionalized Fe₂O₃ nano particles on Pseudomonas aeruginosa producing metallo β-lactamases. Iran J. Biotechnol., 13 (2015) 43–47.
34. X. Wang, Y. Wang, D. Li. Degradation of tetracycline in water by ultrasonic irradiation. Wat. Sci. Technol., 67 (2013) 715–721.
35. P. Villegas-Guzman, J. Silva-Agredo, A.L. Giraldo-Aguirre, O. Flórez-Acosta, C. Petrier, RA .Torres-Palma. Enhancement and inhibition effects of water matrices during the sonochemical degradation of the antibiotic dicloxacillin. Ultrason Sonochem., 22 (2015) 211–219.