References

1. J. Rivas, O. Gimeno, F. Beltrán, Wastewater recycling: application of ozone based treatments to secondary effluents, Chemosphere, 74 (2009) 854–859.
2. A. Azizi, A. Dargahi, A. Almasi, Biological removal of diazinon in a moving bed biofilm reactor – process optimization with central composite design, Toxin Rev., 40 (2021) 1242–1252.
3. M. Yilmaz, T.J. Al-Musawi, A.D. Khatibi, M. Baniasadi, D. Balarak, Synthesis of activated carbon from Lemna minor plant and magnetized with iron(III) oxide magnetic nanoparticles and its application in removal of ciprofloxacin, Biomass Convers. Biorefin., (2022) 1–14, doi: 10.1007/s13399-021-02279-y.
4. M. Rakhshani, F. Rakhshani, A. Mirshahi, Self-medication in Zahedan city in 1999, 6 (2002) 45–52.
5. T.J. Al-Musawi, A.H. Mahvi, A.D. Khatibi, D. Balarak, Effective adsorption of ciprofloxacin antibiotic using powdered activated carbon magnetized by iron(III) oxide magnetic nanoparticles, J. Porous Mater., 28 (2021) 835–852.
6. T.J. Al-Musawi, N. Mengelizadeh, K. Sathishkumar, S. Mohebi, D. Balarak, Preparation of
   CuFe₂O₄/montmorillonite nanocomposite and explaining its performance in the sonophotocatalytic degradation process for ciprofloxacin, Colloid Interface Sci. Commun., 45 (2021) 100532,
   doi: 10.1016/j.colcom.2021.100532.
7. M. Heidari, M. Vosoughi, H. Sadeghi, A. Dargahi, S.A. Mokhtari, Degradation of diazinon from aqueous solutions by electro-Fenton process: effect of operating parameters, intermediate identification, degradation pathway, and optimization using response surface methodology (RSM), Sep. Sci. Technol., 56 (2021) 2287–2299.
8. T.J. Al-Musawi, P. Rajiv, N. Mengelizadeh, F.S. Arghavan, D. Balarak, Photocatalytic efficiency of CuNiFe₂O₄ nanoparticles loaded on multi-walled carbon nanotubes as a novel photocatalyst for ampicillin degradation, J. Mol. Liq., 337 (2021) 116470, doi: 10.1016/j.molliq.2021.116470.
9. W.-h. Xu, G. Zhang, S.-c. Zou, X.-d. Li, Y.-c. Liu, Determination of selected antibiotics in the Victoria Harbour and the Pearl River, South China using high-performance liquid chromatographyelectrospray ionization tandem mass spectrometry, Environ. Pollut., 145 (2007) 672–679.
10. G.A. Rumman, T.J. Al-Musawi, M. Sillanpaa, D. Balarak, Adsorption performance of an amine-functionalized MCM– 41 mesoporous silica nanoparticle system for ciprofloxacin removal, Environ. Nanotechnol. Monit. Manage., 16 (2021) 100536, doi: 10.1016/j.enmm.2021.100536.
11. H. Liu, W. Liu, J. Zhang, C. 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.
12. S. Zheng, C. Cui, Q. Liang, X. Xia, F. Yang, Ozonation performance of WWTP secondary effluent of antibiotic manufacturing wastewater, Chemosphere, 81 (2010) 1159–1163.
13. N. Olfatmehr, B. Kakavandi, S.M. Khezri, Peroxydisulfate activation by enhanced catalytic activity of CoFe₂O₄ anchored on activated carbon: a new sulfate radical-based oxidation study on the cefixime degradation, Sep. Purif. Technol., 302 (2022) 121991, doi: 10.1016/j.seppur.2022.121991.
14. Z. Ciğeroğlu, Preparation of ZnO/BaTiO₃ adsorbent using Elaeagnus angustifolia L. leaf extract and its evaluation for ciprofloxacin removal from aqueous solutions: an optimization study, Biomass Convers. Biorefin., 11 (2021) 1407–1417.
15. A. Almasi, A. Dargahi, M. Mohammadi, A. Azizi, A. Karami, F. Baniamerian, Application of response surface methodology on cefixime removal from aqueous solution by ultrasonic/photooxidation, Int. J. Pharm. Technol., 8 (2016) 16728–16736.
16. D. Rawat, A.S. Hasan, M.R. Capoor, S. Sarma, D. Nair, M. Deb, P. Pillai, P. Aggarwal, In vitro evaluation of a new cefiximeclavulanic acid combination for gram-negative bacteria, Southeast Asian J. Trop. Med. Public Health, 40 (2009) 131–139.
17. L. Lloret, G. Eibes, T. Lú-Chau, M.T. Moreira, G. Feijoo, J.M. Lema, Laccase-catalyzed degradation of
    anti-inflammatories and estrogens, BioChem. Eng. J., 51 (2010) 124–131.
18. M. Hoseini, G.H. Safari, H. Kamani, J. Jaafari, A. 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).
19. M. Zazouli, M. Ulbricht, S. Naseri, H. Susanto, Effect of hydrophilic and hydrophobic organic matter on amoxicillin and cephalexin residuals rejection from water by nanofiltration, J. Environ. Health Sci. Eng., 7 (2010) 15–24.
20. M. Yegane Badi, A. Esrafili, H. Pasalari, S. Fallah Jokandan, M. Farzadkia, Evaluation the efficiency of catalytic ozonation by magnetic nanoparticles TiO₂/Fe₃O₄ in removal of ceftazide antibiotic from aqueous solutions, J. Environ. Health Eng., 7 (2020) 119–134.
21. A. Amouei, D. Naghipour, K. Taghavi, M. Estaji, Removal of metronidazole antibiotic from hospital wastewater by biosorbent prepared from plantain wood, J. Babol Univ. Med. Sci., 22 (2020) 45–52.
22. B. Kakavandi, R. Rezaei Kalantary, A. Jonidi Jafari, 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.
23. S. Esplugas, D.M. Bila, L.G.T. Krause, M. Dezotti, Ozonation and advanced oxidation technologies to remove endocrine disrupting chemicals (EDCs) and pharmaceuticals and personal care products (PPCPs) in water effluents, J. Hazard. Mater., 149 (2007) 631–642.
24. S. Shen, J. Ren, J. Chen, X. Lu, C. Deng, X. Jiang, Development of magnetic multi-walled carbon nanotubes combined with nearinfrared radiation-assisted desorption for the determination of tissue distribution of doxorubicin liposome injects in rats, J. Chromatogr. A, 1218 (2011) 4619–4626.
25. M. Iram, C. Guo, Y. Guan, A. Ishfaq, H. Liu, Adsorption and magnetic removal of neutral red dye from aqueous solution using Fe₃O₄ hollow nanospheres, J. Hazard. Mater., 181 (2010) 1039–1050.
26. S. Dashamiri, M. Ghaedi, K. Dashtian, M.R. Rahimi, A. Goudarzi, R. Jannesar, Ultrasonic enhancement of the simultaneous removal of quaternary toxic organic dyes by CuO nanoparticles loaded on activated carbon: central composite design, kinetic and isotherm study, Ultrason. Sonochem., 31 (2016) 546–557.
27. M.D. Tezerjani, A. Benvidi, A.D. Firouzabadi, M. Mazloum-Ardakani, A. Akbari, Epinephrine electrochemical sensor based on a carbon paste electrode modified with hydroquinone derivative and graphene oxide nano-sheets: simultaneous determination of epinephrine, acetaminophen and dopamine, Measurement, 101 (2017) 183–189.
28. C. Santhosh, E. Daneshvar, P. Kollu, S. Peräniemi, A.N. Grace, A. Bhatnagar, Magnetic SiO₂@CoFe₂O₄ nanoparticles decorated on graphene oxide as efficient adsorbents for the removal of anionic pollutants from water, Chem. Eng. J., 322 (2017) 472–487.
29. A. Amouei, H. Asgharnia, K. Karimian, Y. Mahdavi, D. Balarak, S. Ghasemi, Optimization of dye reactive orange 16 (RO16) adsorption by modified sunflower stem using response surface method from aqueous solutions, J. Rafsanjan Univ. Med. Sci., 14 (2016) 813–826.
30. M. Ghorbani, A. Bagherian, Optimization of astrazon blue adsorption onto sulfunated
    styrene-co-divinylbenzene resin by experimental design methodology, Nashrieh Shimi va Mohandesi Shimi Iran, 35 (2016) 25–37.
31. L. Järup, Hazards of heavy metal contamination, Br. Med. Bull., 68 (2003) 167–182.
32. A. Dargahi, M.R. Samarghandi, A. Shabanloo, M.M. Mahmoudi, H.Z. Nasab, Statistical modeling of phenolic compounds adsorption onto low-cost adsorbent prepared from aloe vera leaves wastes using CCD-RSM optimization: effect of parameters, isotherm, and kinetic studies, Biomass Convers. Biorefin., (2021) 1–15, doi: 10.1007/s13399-021-01601-y.
33. A. Dargahi, M. Vosoughi, S.A. Mokhtari, Y. Vaziri, M. Alighadri, Electrochemical degradation of
    2,4-dinitrotoluene (DNT) from aqueous solutions using three-dimensional electrocatalytic reactor (3DER): degradation pathway, evaluation of toxicity and optimization using RSM-CCD, Arabian J. Chem., 15 (2022) 103648, doi: 10.1016/j.arabjc.2021.103648.
34. M.R. Samarghandi, A. Dargahi, A. Rahmani, A. Shabanloo, A. Ansari, D. Nematollahi, Application of a fluidized threedimensional electrochemical reactor with Ti/SnO₂–Sb/β-PbO₂ anode and granular activated carbon particles for degradation and mineralization of 2,4-dichlorophenol: process optimization and degradation pathway, Chemosphere, 279 (2021) 130640, doi: 10.1016/j.chemosphere.2021.130640.
35. H.V. Tran, L.T. Bui, T.T. Dinh, D.H. Le, C.D. Huynh, A.X. Trinh, Graphene oxide/Fe₃O₄/chitosan nanocomposite: a recoverable and recyclable adsorbent for organic dyes removal. Application to methylene blue, Mater. Res. Express, 4 (2017) 035701, doi: 10.1088/2053-1591/aa6096.
36. Y. Jiang, J.-L. Gong, G.-M. Zeng, X.-M. Ou, Y.-N. Chang, C.-H. Deng, J. Zhang, H.-Y. Liu, S.-Y. Huang, Magnetic chitosan–graphene oxide composite for anti-microbial and dye removal applications, Int. J. Biol. Macromol., 82 (2016) 702–710.
37. K. Hasani, A. Peyghami, A. Moharrami, M. Vosoughi, A. Dargahi, The efficacy of sono-electro-Fenton process for removal of cefixime antibiotic from aqueous solutions by response surface methodology (RSM) and evaluation of toxicity of effluent by microorganisms, Arabian J. Chem., 13 (2020) 6122–6139.
38. S. Afshin, Y. Rashtbari, M. Vosough, A. Dargahi, M. Fazlzadeh, A. Behzad, M. Yousefi, Application of Box–Behnken design for optimizing parameters of hexavalent chromium removal from aqueous solutions using Fe₃O₄ loaded on activated carbon prepared from alga: kinetics and equilibrium study, J. Water Process. Eng., 42 (2021) 102113, doi: 10.1016/j.jwpe.2021.102113.
39. A. Dargahi, K. Hasani, S.A. Mokhtari, M. Vosoughi, M. Moradi, Y. Vaziri, Highly effective degradation of
    2,4-dichlorophenoxyacetic acid herbicide in a three-dimensional sono-electro-Fenton (3D/SEF) system using powder activated carbon (PAC)/Fe₃O₄ as magnetic particle electrode, J. Environ. Chem. Eng., 9 (2021) 105889, doi: 10.1016/j.jece.2021.105889.
40. V. Ganesan, C. Louis, S.P. Damodaran, Graphene oxide-wrapped magnetite nanoclusters: a recyclable functional hybrid for fast and highly efficient removal of organic dyes from wastewater, J. Environ. Chem. Eng., 6 (2018) 2176–2190.
41. Y. Yao, S. Miao, S. Liu, L.P. Ma, H. Sun, S. Wang, Synthesis, characterization, and adsorption properties of magnetic Fe₃O₄@graphene nanocomposite, Chem. Eng. J., 184 (2012) 326–332.
42. H. Kamani, E. Bazrafshan, S.D. Ashrafi, F. Sancholi, Efficiency of sono-nano-catalytic process of TiO₂
    nano-particle in removal of erythromycin and metronidazole from aqueous solution, J. Maz. Univ. Med. Sci., 27 (2017) 140–154.
43. H.R. Sobhi, B.M. Yegane, A. Esrafili, M. Ghambarian, Evaluation of the efficiency of a photocatalytic process using the magnetic nanocatalyst (Fe₃O₄@SiO₂@TiO₂) in the removal of ceftriaxone from aqueous solutions, J. Environ. Health Eng., 7 (2020) 229–243.
44. H. Hemmati, E. Bazrafshan, H. Kamani, J. Mosafer, D. Balarak, F. Kord Mostafapour, Optimization of
    sono-nanocatalytic process using g-Fe₂O₃ for penicilin antibiotic removal by response surface methodology, J. Torbat Heydariyeh Univ. Med. Sci., 5 (2017) 1–16.
45. H. Kamani, A. Hossein Panahi, E. Norabadi, Gh. Abi, Performance evaluation of combined ultrasonic-persulfate processes in organic matter reduction of synthetic dairy wastewater, J. Birjand Univ. Med. Sci., 26 (2019) 32–43.
46. A. Seid-Mohammadi, G. Asgarai, Z. Ghorbanian, A. Dargahi, The removal of cephalexin antibiotic in aqueous solutions by ultrasonic waves/hydrogen peroxide/nickel oxide nanoparticles (US/H₂O₂/NiO) hybrid process, Sep. Sci. Technol., 55 (2020) 1558–1568.
47. A. Dargahi, H. Rahimzadeh Barzoki, M. Vosoughi, S.A. Mokhtari, Enhanced electrocatalytic degradation of
    2,4-dinitrophenol (2,4-DNP) in three-dimensional sonoelectrochemical (3D/SEC) process equipped with Fe/SBA-15 nanocomposite particle electrodes: degradation pathway and application for real wastewater, Arabian J. Chem., 15 (2022) 103801, doi: 10.1016/j.arabjc.2022.103801.
48. R. Guo, J. Chen, Application of alga-activated sludge combined system (AASCS) as a novel treatment to remove cephalosporins, Chem. Eng. J., 260 (2015) 550–556.
49. M. Esmaeili Bidhendi, Z. Poursorkh, H. Sereshti, H. Rashidi Nodeh, S. Rezania, M. Afzal Kamboh, Nano-size biomass derived from pomegranate peel for enhanced removal of cefixime antibiotic from aqueous media: kinetic, equilibrium and thermodynamic study, Int. J. Environ. Res. Public Health, 17 (2020) 4223, doi: 10.3390/ijerph17124223.
50. V. Hasanzadeh, O. Rahmanian, M. Heidari, Cefixime adsorption onto activated carbon prepared by dry thermochemical activation of date fruit residues, Microchem. J., 152 (2020) 104261, doi: 10.1016/j.microc.2019.104261.
51. F. KordMostafapour, E. Bazrafshan, D. Belarak, N. Khoshnamvand, Survey of photo-catalytic degradation of ciprofloxacin antibiotic using copper oxide nanoparticles (UV/CuO) in aqueous environment, J. Rafsanjan Univ. Med. Sci., 15 (2016) 307–318.
52. F. Almasi, E. Dehghanifard, E. Mohammadi Kalhori, Application of photocatalytic process using Fe₃O₄/TiO₂ nanocomposite coreshell on the removal of cefixim antibiotic from aqueous solutions, J. Environ. Health Eng., 7 (2020) 384–400.
53. M. Mohammadi Amini, M. Nourisepehr, E. Dehghanifard, Evaluation the efficiency of magnetic-metallic chitosan nanocomposite adsorbent in the removal of tetracycline antibiotic from aqueous solutions, J. Environ. Health Eng., 6 (2019) 356–374.
54. H. Vahidi, S. Rahmani, Amoxicillin removal from aqueous solutions using US/H₂O₂/NZVI process, J. Environ. Health Eng., 5 (2018) 184–196.
55. M. Hemmati, A. Ghaemi, H. Tavakkoli, Removal of cephalexin from aqueous solutions by activated carbon adsorbent, J. Res. Environ. Health, 5 (2019) 11–20.
56. R. Zangi, Performance evaluation of advanced oxidation process US/UV/H₂O₂ on removal of tetracycline antibiotic from aqueous solutions, J. Sabzevar Univ. Med. Sci., 25 (2018) 143–149.
57. M. Sobhanikia, E. Bazrafshan, H. Kamani, Removal of penicillin g from aqueous environments by batch reactor nanoparticles zero valent iron and ozonation process, J. Sabzevar Univ. Med. Sci., 24 (2017) 144–137.
58. S. Khanjani, A. Morsali, Ultrasound-promoted coating of MOF-5 on silk fiber and study of adsorptive removal and recovery of hazardous anionic dye “Congo red”, Ultrason. Sonochem., 21 (2014) 1424–1429.
59. M. Jamshidi, M. Ghaedi, K. Dashtian, S. Hajati, A. Bazrafshan, Ultrasound-assisted removal of Al³⁺ ions and Alizarin red S by activated carbon engrafted with Ag nanoparticles: central composite design and genetic algorithm optimization, RSC Adv., 5 (2015) 59522–59532.
60. M. Ghodrat, E. Asrari, Comparative study of the performance of chitosan and chitosan adsorbents modified with Fe₃O₄ to eliminate erythromycin from aqueous solutions, Iran. J. Health Environ., 10 (2018) 471–482.
61. S.-L. Hii, S.-Y. Yong, C.-L. Wong, Removal of rhodamine B from aqueous solution by sorption on Turbinaria conoides (Phaeophyta), J. Appl. Phycol., 21 (2009) 625–631.
62. A.H. Mahvi, M. Vosoughi, M.J. Mohammadi, A. Asadi, B. Hashemzadeh, A. Zahedi, S. Pourfadakar, Sodium dodecyl sulfate modified-zeolite as a promising adsorbent for the removal of natural organic matter from aqueous environments, Health Scope, 5 (2016) e29966, doi: 10.17795/jhealthscope-29966.
63. H. Biglari, S. RodríguezíCouto, Y.O. Khaniabadi, H. Nourmoradi, M. Khoshgoftar, A. Amrane, M. Vosoughi, S. Esmaeili, R. Heydari, M.J. Mohammadi, Cationic surfactantmodified clay as an adsorbent for the removal of synthetic dyes from aqueous solutions, Int. J. Chem. React. Eng., 16 (2018) 1–26.
64. A.H. Mahvi, B. Heibati, Removal efficiency of azo dyes from textile effluent using activated carbon made from walnut wood and determination of isotherms of Acid red 18, J. Health, 1 (2010) 7–15.
65. A. Peyghami, A. Moharrami, Y. Rashtbari, S. Afshin, M. Vosuoghi, A. Dargahi, Evaluation of the efficiency of magnetized clinoptilolite zeolite with Fe₃O₄ nanoparticles on the removal of Basic violet 16 (BV16) dye from aqueous solutions, J. Dispersion Sci. Technol., (2021) 1–10, doi: 10.1080/01932691.2021.1947847.
66. T.J. Al-Musawi, N. Mengelizadeh, M. Taghavi, S. Mohebi, D. Balarak, Activated carbon derived from Azolla filiculoides fern: a high-adsorption-capacity adsorbent for residual ampicillin in pharmaceutical wastewater, Biomass Convers. Biorefin., (2021) 1–13, doi: 10.1007/s13399-021-01962-4.
67. M.V. Niri, A.H. Mahvi, M. Alimohammadi, M. Shirmardi, H. Golastanifar, M.J. Mohammadi, A. Naeimabadi, M. Khishdost, Removal of natural organic matter (NOM) from an aqueous solution by NaCl and surfactant-modified clinoptilolite, J. Water Health, 13 (2015) 394–405.
68. Y.-M. Hao, C. Man, Z.-B. Hu, Effective removal of Cu(II) ions from aqueous solution by amino-functionalized magnetic nanoparticles, J. Hazard. Mater., 184 (2010) 392–399.
69. A.R. Sani, A. Hosseini-Bandehgharaei, M. Naeemi, A. Navidzadeh, E. Agheli, Removal of sulfadimethoxine antibiotic from aqueous solutions using carbon nanotubes, Int. J. Environ. Health Res., 4 (2018) 11–20.
70. Z. Ciğeroğlu, G. Küçükyıldız, B. Erim, E. Alp, Easy preparation of magnetic nanoparticles-rGO-chitosan composite beads: optimization study on cefixime removal based on RSM and ANN by using genetic algorithm approach, J. Mol. Struct., 1224 (2021) 129182, doi: 10.1016/j.molstruc.2020.129182.
71. S. Zavareh, T. Eghbalazar, Efficient and selective removal of cefixime form aqueous solution by a modified bionanocomposite, J. Environ. Chem. Eng., 5 (2017) 3337–3347.
72. T.H. Dao, T.T. Tran, V.R. Nguyen, T.N.M. Pham, C.M. Vu, T.D. Pham, Removal of antibiotic from aqueous solution using synthesized TiO₂ nanoparticles: characteristics and mechanisms, Environ. Earth Sci., 77 (2018) 1–14.
73. A. Fakhri, S. Adami, Adsorption and thermodynamic study of Cephalosporins antibiotics from aqueous solution onto MgO nanoparticles, J. Taiwan Inst. Chem. Eng., 45 (2014) 1001–1006.