References

1. M. Chen, W. Chu, Degradation of antibiotic norfloxacin in aqueous solution by visible-light-mediated C-TiO₂ photocatalysis, J. Hazard. Mater., 219 (2012) 183–189.
2. M. Fazlzadeh, A. Ahmadfazeli, A. Entezari, A. Shaegi, R. Khosravi, Removal of cephalexin using green montmorillonite loaded with TiO₂ nanoparticles in the presence potassium permanganate from aqueous solution, 2016.
3. R. Shokoohi, M.T. Samadi, M. Amani, Y. Poureshgh, Optimizing laccase-mediated amoxicillin removal by the use of Box–Behnken design in an aqueous solution, Desal. Water Treat., 119 (2018) 53–63.
4. M. Yoosefian, S. Ahmadzadeh, M. Aghasi, M. Dolatabadi, Optimization of electrocoagulation process for efficient removal of ciprofloxacin antibiotic using iron electrode; kinetic and isotherm studies of adsorption, J. Molec. Liq., 225 (2017) 544–553.
5. S. Ahmadzadeh, A. Asadipour, M. Yoosefian, M. Dolatabadi, Improved electrocoagulation process using chitosan for efficient removal of cefazolin antibiotic from hospital wastewater through sweep flocculation and adsorption; kinetic and isotherm study, Desal. Water Treat., 92 (2017) 160–171.
6. Y. Ji, C. Ferronato, A. Salvador, X. Yang, J.-M. Chovelon, Degradation of ciprofloxacin and sulfamethoxazole by ferrous-activated persulfate: Implications for remediation of groundwater contaminated by antibiotics, Sci. Total Environ., 472 (2014) 800–808.
7. 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. Chromatography A, 1268 (2012) 84–90.
8. H. Peng, B. Pan, M. Wu, Y. Liu, D. Zhang, B. Xing, Adsorption of ofloxacin and norfloxacin on carbon nanotubes: Hydrophobicity- and structure-controlled process, J. Hazard. Mater., 233–234 (2012) 89–96.
9. M. Fazlzadeh, A. Rahmani, H.R. Nasehinia, H. Rahmani, K. Rahmani, Degradation of sulfathiazole antibiotics in aqueous solutions by using zero valent iron nanoparticles and hydrogen peroxide, Koomesh, 18 (2016) 350–356.
10. S. Ahmadzadeh, M. Dolatabadi, Electrochemical treatment of pharmaceutical wastewater through electrosynthesis of iron hydroxides for practical removal of metronidazole, Chemosphere, 212 (2018) 533–539.
11. T.M. LaPara, T.R. Burch, P.J. McNamara, D.T. Tan, M. Yan, J.J. Eichmiller, Tertiary-treated municipal wastewater is a significant point source of antibiotic resistance genes into Duluth-Superior Harbor, Environ. Sci. Technol., 45 (2011) 9543–9549.
12. Z. Li, H. Hong, L. Liao, C.J. Ackley, L.A. Schulz, R.A. Mac- Donald, A.L. Mihelich, S.M. Emard, A mechanistic study of ciprofloxacin removal by kaolinite, Colloids Surfaces B: Biointerfaces, 88 (2011) 339–344.
13. A.J. Watkinson, E.J. Murby, S.D. Costanzo, Removal of antibiotics in conventional and advanced wastewater treatment: Implications for environmental discharge and wastewater recycling, Water Res., 41 (2007) 4164–4176.
14. C. Gu, K.G. Karthikeyan, S.D. Sibley, J.A. Pedersen, Complexation of the antibiotic tetracycline with humic acid, Chemosphere, 66 (2007) 1494–1501.
15. R. Wei, F. Ge, S. Huang, M. Chen, R. Wang, Occurrence of veterinary antibiotics in animal wastewater and surface water around farms in Jiangsu Province, China, Chemosphere, 82 (2011) 1408–1414.
16. S. Parastar, S. Nasseri, S.H. Borji, M. Fazlzadeh, A.H. Mahvi, A.H. Javadi, M. Gholami, Application of Ag-doped TiO₂ nanoparticle prepared by photodeposition method for nitrate photocatalytic removal from aqueous solutions, Desal. Water Treat., 51 (2013) 7137–7144.
17. R. Khosravi, M. Fazlzadehdavil, B. Barikbin, H. Hossini, Electro-decolorization of Reactive Red 198 from aqueous solutions using aluminum electrodes systems: modeling and optimization of operating parameters, Desal. Water Treat., 54 (2015) 3152–3160.
18. A.R. Rahmani, A. Shabanloo, M. Fazlzadeh, Y. Poureshgh, H. Rezaeivahidian, Degradation of Acid Blue 113 in aqueous solutions by the electrochemical advanced oxidation in the presence of persulfate, Desal. Water Treat., 59 (2017) 202–209.
19. A. Seid-Mohammadi, A. Shabanloo, M. Fazlzadeh, Y. Poureshgh, Degradation of acid blue 113 by US/H₂O₂/Fe²⁺ and US/S₂O₈^2–/Fe²⁺ processes from aqueous solutions, Desal. Water Treat., 78 (2017) 273–280.
20. A.R. Rahmani, A. Shabanloo, M. Fazlzadeh, Y. Poureshgh, Investigation of operational parameters influencing in treatment of dye from water by electro-Fenton process, Desal. Water Treat., 57 (2016) 24387–24394.
21. S. Ahmadzadeh, M. Dolatabadi, Removal of acetaminophen from hospital wastewater using electro-Fenton process, Environ. Earth Sci., 77 (2018) 53.
22. L. Hou, H. Zhang, X. Xue, Ultrasound enhanced heterogeneous activation of peroxydisulfate by magnetite catalyst for the degradation of tetracycline in water, Separ. Purif. Technol., 84 (2012) 147–152.
23. A. Dargahi, M. Pirsaheb, S. Hazrati, M. Fazlzadehdavil, R. Khamutian, T. Amirian, Evaluating efficiency of H₂O₂ on removal of organic matter from drinking water, Desal. Water Treat., 54 (2015) 1589–1593.
24. S. Ahmadzadeh, M. Dolatabadi, In situ generation of hydroxyl radical for efficient degradation of 2, 4-dichlorophenol from aqueous solutions, Environ. Monit. Assess., 190 (2018) 340.
25. R. Shokoohi, Y. Poureshgh, S. Parastar, S. Ahmadi, A. Shabanloo, Z. Rahmani, F.B. Asl, M.V. Tabar, Comparing the efficiency of UV/ZrO₂ and UV/H₂O₂/ZrO₂ photocatalytic processes in furfural removal from aqueous solution, Appl. Water Sci., 8 (2018) 182.
26. S.-Y. Oh, S.-G. Kang, D.-W. Kim, P.C. Chiu, Degradation of 2,4-dinitrotoluene by persulfate activated with iron sulfides, Chem. Eng. J., 172 (2011) 641–646.
27. A. Ghauch, G. Ayoub, S. Naim, Degradation of sulfamethoxazole by persulfate assisted micrometric Fe⁰ in aqueous solution, Chem. Eng. J., 228 (2013) 1168–1181.
28. S.-Y. Oh, S.-G. Kang, P.C. Chiu, Degradation of 2,4-dinitrotoluene by persulfate activated with zero-valent iron, Sci. Total Environ., 408 (2010) 3464–3468.
29. M. Fazlzadeh, H. Abdoallahzadeh, R. Khosravi, B. Alizadeh, Removal of acid black 1 from aqueous solutions using Fe₃O₄ magnetic nanoparticles, J. Mazandaran Univ. Med. Sci., 26 (2016) 174–186.
30. M. Fazlzadeh, K. Rahmani, A. Zarei, H. Abdoallahzadeh, F. Nasiri, R. Khosravi, A novel green synthesis of zero valent iron nanoparticles (NZVI) using three plant extracts and their efficient application for removal of Cr(VI) from aqueous solutions, Adv. Powder Technol., 28 (2017) 122–130.
31. M. Fazlzadeh, R. Khosravi, A. Zarei, Green synthesis of zinc oxide nanoparticles using Peganum harmala seed extract, and loaded on Peganum harmala seed powdered activated carbon as new adsorbent for removal of Cr(VI) from aqueous solution, Ecol. Eng., 103 (2017) 180–190.
32. H. Abdoallahzadeh, B. Alizadeh, R. Khosravi, M. Fazlzadeh, Efficiency of EDTA modified nanoclay in removal of humic acid from aquatic solutions, J. Mazandaran Univ. Med. Sci., 26 (2016) 111–125.
33. S. Rodriguez, L. Vasquez, D. Costa, A. Romero, A. Santos, Oxidation of Orange G by persulfate activated by Fe(II), Fe(III) and zero valent iron (ZVI), Chemosphere, 101 (2014) 86–92.
34. R. Shokouhi, Y. Poureshgh, H. Almasi, A. Shabanloo, Sonochemical oxidation of phenol using persulfate activated by zerovalent iron nanoparticles in aqueous environments, J. Occup. Environ. Health, 2 (2016) 7–17.
35. Y. Li, W.-P. Hsieh, R. Mahmudov, X. Wei, C.P. Huang, Combined ultrasound and Fenton (US-Fenton) process for the treatment of ammunition wastewater, J. Hazard. Mater., 244–245 (2013) 403–411.
36. I. Ioan, S. Wilson, E. Lundanes, A. Neculai, Comparison of Fenton and sono-Fenton bisphenol A degradation, J. Hazard. Mater., 142 (2007) 559–563.
37. A. Rahmani, J. Mehralipour, N. Shabanlo, F. Zaheri, Y. Poureshragh, S.A., Performance evaluation of advanced electrochemical oxidation process with the using persulfate in degradation of acid blue 113 from aqueous solutions, J. Sabzevar Univ. Med. Sci., 21 (2014) 797–807.
38. X. Zou, T. Zhou, J. Mao, X. Wu, Synergistic degradation of antibiotic sulfadiazine in a heterogeneous ultrasound-enhanced Fe⁰/persulfate Fenton-like system, Chem. Eng. J., 257 (2014) 36–44.
39. J. Deng, Y. Shao, N. Gao, Y. Deng, C. Tan, S. Zhou, Zero-valent iron/persulfate (Fe⁰/PS) oxidation acetaminophen in water, Int. J. Environ. Sci. Technol., 11 (2013) 881–890.
40. N. Bilgin Oncu, N. Mercan, I. Akmehmet Balcioglu, The impact of ferrous iron/heat-activated persulfate treatment on waste sewage sludge constituents and sorbed antimicrobial micropollutants, Chem. Eng. J., 259 (2015) 972–980.
41. M. Roosta, M. Ghaedi, A. Daneshfar, R. Sahraei, A. Asghari, Optimization of the ultrasonic assisted removal of methylene blue by gold nanoparticles loaded on activated carbon using experimental design methodology, Ultrason. Sonochem., 21 (2014) 242–252.
42. M. Moradi, M. Fazlzadehdavil, M. Pirsaheb, Y. Mansouri, T. Khosravi, K. Sharafi, Response surface methodology (RSM) and its application for optimization of ammonium ions removal from aqueous solutions by pumice as a natural and low cost adsorbent, Arch. Environ. Protect., 42 (2016) 33–43.
43. S. Ahmadzadeh, A. Asadipour, M. Pournamdari, B. Behnam, H.R. Rahimi, M. Dolatabadi, Removal of ciprofloxacin from hospital wastewater using electrocoagulation technique by aluminum electrode: Optimization and modelling through response surface methodology, Process Safety Environ. Protect., 109 (2017) 538–547.
44. S. Ahmadzadeh, M. Dolatabadi, Modeling and kinetics study of electrochemical peroxidation process for mineralization of bisphenol A; a new paradigm for groundwater treatment, J. Molec. Liq., 254 (2018) 76–82.
45. 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.
46. L.J.M. Githinji, M.K. Musey, R.O. Ankumah, Evaluation of the fate of ciprofloxacin and amoxicillin in domestic wastewater, Water Air Soil Pollut., 219 (2010) 191–201.
47. E. De Bel, J. Dewulf, B. De Witte, H. Van Langenhove, C. Janssen, Influence of pH on the sonolysis of ciprofloxacin: biodegradability, ecotoxicity and antibiotic activity of its degradation products, Chemosphere, 77 (2009) 291–295.
48. H. Tahmasbi, M.R. Khoshayand, M. Bozorgi-Koushalshahi, M. Heidary, M. Ghazi-Khansari, M.A. Faramarzi, Biocatalytic conversion and detoxification of imipramine by the laccase-mediated system, Int. Biodeterior. Biodegradn., 108 (2016) 1–8.
49. A. Babuponnusami, K. Muthukumar, Removal of phenol by heterogenous photo electro Fenton-like process using nanozero valent iron, Separ. Purif. Technol., 98 (2012) 130–135.
50. Y. Mao, Z. Xi, W. Wang, C. Ma, Q. Yue, Kinetics of Solvent Blue and Reactive Yellow removal using microwave radiation in combination with nanoscale zero-valent iron, J. Environ. Sci., 30 (2015) 164–172.
51. P. Dorjee, D. Amarasiriwardena, B. Xing, Antimony adsorption by zero-valent iron nanoparticles (nZVI): Ion chromatography–inductively coupled plasma mass spectrometry (IC–ICP-MS) study, Microchem. J., 116 (2014) 15–23.
52. Y.F. Rao, L. Qu, H. Yang, W. Chu, Degradation of carbamazepine by Fe(II)-activated persulfate process, J. Hazard. Mater., 268 (2014) 23–32.
53. L. Zhou, W. Zheng, Y. Ji, J. Zhang, C. Zeng, Y. Zhang, Q. Wang, X. Yang, Ferrous-activated persulfate oxidation of arsenic(III) and diuron in aquatic system, J. Hazard. Mater., 263(Part 2) (2013) 422–430.
54. A. Romero, A. Santos, F. Vicente, C. González, Diuron abatement using activated persulphate: Effect of pH, Fe(II) and oxidant dosage, Chem. Eng. J., 162 (2010) 257–265.
55. S. Wang, N. Zhou, S. Wu, Q. Zhang, Z. Yang, Modeling the oxidation kinetics of sono-activated persulfate’s process on the degradation of humic acid, Ultrason. Sonochem., 23 (2015) 128–134.
56. M.V. Bagal, B.J. Lele, P.R. Gogate, Removal of 2,4-dinitrophenol using hybrid methods based on ultrasound at an operating capacity of 7 L, Ultrason. Sonochem., 20 (2013) 1217–1225.
57. K. Ninomiya, H. Takamatsu, A. Ohnishi, K. Takahashi, N. Shimizu, Sonocatalytic-Fenton reaction for enhanced OH radical generation and its application to lignin degradation, Ultrason. Sonochem., 20 (2013) 1092–1097.
58. M.R. Taha, A.H. Ibrahim, Characterization of nano zero-valent iron (nZVI) and its application in sono-Fenton process to remove COD in palm oil mill effluent, J. Environ. Chem. Eng., 2 (2014) 1–8.
59. F. Hao, W. Guo, A. Wang, Y. Leng, H. Li, Intensification of sonochemical degradation of ammonium perfluorooctanoate by persulfate oxidant, Ultrason. Sonochem., 21 (2014) 554–558.
60. C. Liang, Z.-S. Wang, C.J. Bruell, Influence of pH on persulfate oxidation of TCE at ambient temperatures, Chemosphere, 66 (2007) 106–113.
61. F. Chen, Y. Li, W. Cai, J. Zhang, Preparation and sono-Fenton performance of 4A-zeolite supported α-Fe₂O₃, J. Hazard. Mater., 177 (2010) 743–749.
62. V. Naddeo, V. Belgiorno, D. Kassinos, D. Mantzavinos, S. Meric, Ultrasonic degradation, mineralization and detoxification of diclofenac in water: Optimization of operating parameters, Ultrason. Sonochem., 17 (2010) 179–185.
63. X. Wang, L. Wang, J. Li, J. Qiu, C. Cai, H. Zhang, Degradation of Acid Orange 7 by persulfate activated with zero valent iron in the presence of ultrasonic irradiation, Separ. Purif. Technol., 122 (2014) 41–46.
64. T. Liu, F.W. He, Y.Q. Zhang, Synergistic degradation of acid scarlet dyeing wastewater by the ultrasound/fenton method, in: Applied Mechanics and Materials, Trans Tech Publ, 2014, pp. 34–37.