References

  1. D. Balarak, F.K. Mostafapour, Photocatalytic degradation of amoxicillin using UV/synthesized NiO from pharmaceutical wastewater, Indones. J. Chem., 19 (2019) 211–218.
  2. T.J. Al-Musawi, A.H. Mahvi, A.D. Khatibi, Effective adsorption of ciprofloxacin antibiotic using powdered activated carbon magnetized by iron(III) oxide magnetic nanoparticles, J. Porous Mater., 28 (2021) 835–852.
  3. D. Balarak, H. Azarpira, F.K. Mostafapour, Adsorption kinetics and equilibrium of ciprofloxacin from aqueous solutions using Corylus avellana (Hazelnut) activated carbon, Int. J. Pharm. Technol., 8 (2016) 16664–16675.
  4. D. Avisar, O. Primor, I. Gozlan, H. Mamane, Sorption of sulfonamides and tetracyclines to montmorillonite clay, Water Air Soil Pollut., 209 (2010) 439–450.
  5. X. Zhu, D.C.W. Tsang, F. Chen, S. Li, X. Yang, Ciprofloxacin adsorption on graphene and granular activated carbon: kinetics, isotherms, and effects of solution chemistry, Environ Technol., 36 (2015) 3094–3102.
  6. 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.
  7. D. Balarak, A.H. Mahvi, M.J. Shim, S.-M. Lee, Adsorption of ciprofloxacin from aqueous solution onto synthesized NiO: isotherm, kinetic and thermodynamic studies, Desal. Water Treat., 203 (2020) 1–11.
  8. H. Azarpira, Y. Mahdavi, O. Khaleghi, Thermodynamic studies on the removal of metronidazole antibiotic by multi-walled carbon nanotubes, Pharm. Lett., 8 (2016) 107–13.
  9. J.M. Cha, S. Yang, K.H. Carlson, Trace determination of β-lactam antibiotics in surface water and urban wastewater using liquid chromatography combined with electrospray tandem mass spectrometry, J. Chromatogr., A, 1115 (2006) 46–57.
  10. A.J. Watkinson, E.J. Murby, D.W. Kolpin, S.D. Costanzo. The occurrence of antibiotics in an urban watershed: From wastewater to drinking water, Sci. Total Environ., 407 (2009) 2711–2723.
  11. A.H. Mahvi, F.K. Mostafapour, Biosorption of tetracycline from aqueous solution by Azolla filiculoides: equlibrium kinetic and thermodynamic studies, Fresenius Environ. Bull., 27 (2018) 5759–5767.
  12. D. Balarak, H. Azarpira, F.K. Mostafapour, Adsorption isotherm studies of tetracycline antibiotics from aqueous solutions by maize stalks as a cheap biosorbent, Int. J. Pharm. Technol., 8 (2016) 16664–16675.
  13. Y. Gao, Y. Li, L. Zhang, H. Huang, J. Hu, S.M. Shah, X. Su, Adsorption and removal of tetracycline antibiotics from aqueous solution by graphene oxide, J. Colloid Interface Sci., 368 (2012) 540–546.
  14. M.E. Parolo, M.C. Savini, J.M. Vallés, M.T. Baschini, M.J. Avena, Tetracycline adsorption on montmorillonite:
    pH and ionic strength effects, Appl. Clay Sci., 40 (2008) 179–186.
  15. L.T. Popoola, Tetracycline and sulfamethoxazole adsorption onto nanomagnetic walnut shell-rice husk: isotherm, kinetic, mechanistic and thermodynamic studies, Int. J. Environ. Anal. Chem., 100 (2019) 1–23.
  16. A. Mariyam, J. Mittala, F. Sakina, R.T. Baker, A.K. Sharma, Adsorption behaviour of Chrysoidine R dye on a metal/halidefree variant of ordered mesoporous carbon, Desal. Water Treat., 223 (2021) 425–433.
  17. Anastopoulos, I. Pashalidis, A.G. Orfanos, I.D. Manariotis, A. Mittal, A.N. Delgadog, Removal of caffeine, nicotine and amoxicillin from (waste)waters by various adsorbents. A review, J. Environ. Manage., 261 (2020) 110236.
  18. J. Mittal. Recent progress in the synthesis of Layered Double Hydroxides and their application for the adsorptive removal of dyes: a review, J. Environ. Manage., 295 (2021) 113017.
  19. A. Mariyam, J. Mittal, F. Sakina, R.T. Baker, A.K. Sharma, A. Mittal, Efficient batch and fixed-bed sequestration of a basic dye using a novel variant of ordered mesoporous carbon as adsorbent, Arabian J. Chem., 14 (2021) 103186.
  20. A. Mittal, R. Ahmad, I. Hasan, Iron oxide-impregnated dextrin nanocomposite: synthesis and its application for the biosorption of Cr(VI) ions from aqueous solution, Desal. Water Treat., 57 (2015) 15133–15145.
  21. P. Saharan, V. Kumar, J. Mittal, V. Sharma, A.K. Sharma, Efficient ultrasonic assisted adsorption of organic pollutants employing bimetallic-carbon nanocomposites, 56 (2021) 1866608, doi:10.1080/01496395.2020.1866608.
  22. D. Balarak, H. Azarpira. Photocatalytic degradation of sulfamethoxazole in water: investigation of the effect of operational parameters, Int. J. ChemTech. Res., 9 (2016) 566–573.
  23. S. Wang, E. Ariyanto, Competitive adsorption of malachite green and Pb ions on natural zeolite, J. Colloid Interface Sci., 314 (2007) 25–31.
  24. A. Martucci, I. Pasti, N. Marchetti, A. Cavazzini, F. Dondi, A. Alberti, Adsorption of pharmaceuticals from aqueous solutions on synthetic zeolites, Microporous Mesoporous Mater., 148 (2012) 174–183.
  25. I. Braschia, S. Blasioli, L. Gigli, C.E. Gessa, A. Alberti, A. Martucci, Removal of sulfonamide antibiotics from water: Evidence of adsorption into an organophilic zeolite Y by its structural modifications, J. Hazard. Mater., 178 (2010) 218–225.
  26. P.H. Chang, Z. Li, J.S. Jean, W.T. Jiang, C.J. Wang, K.H. Lin, Adsorption of tetracycline on 2:1 layered non-swelling clay mineral illite, Appl. Clay Sci., 67 (2012) 158–163.
  27. Y. Gao, Y. Li, L. Zhang, H. Huang, J. Hu, S.M. Shah, Adsorption and removal of tetracycline antibiotics from aqueous solution by graphene oxide, J. Colloid Interface Sci., 368 (2012) 540–546.
  28. K. Rahmani, M.A. Faramarzi, A.H. Mahvi, M. Gholam, A. Esrafili, H. Forootanfar, Elimination and detoxification of sulfathiazole and sulfamethoxazole assisted by laccase immobilized on porous silica beads, Int. Biodeterior. Biodegrad., 97 (2015) 107–114.
  29. M.E. Parolo, M.C. Savini, J.M. Vallés, M.T. Baschini, M.J. Avena, Tetracycline adsorption on montmorillonite: pH and ionic strength effects, Appl. Clay Sci., 40 (2008) 179–186.
  30. C. Arora, P. Kumar, S. Soni, J. Mittal, A. Mittal, B. Singh, Efficient removal of malachite green dye from aqueous solution using Curcuma caesia based activated carbon, Desal. Water Treat., 195 (2020) 341–352.
  31. S. Soni, P.K. Bajpai, D. Bharti, J. Mittal, C. Arora, Removal of crystal violet from aqueous solution using iron based metal organic framework, Desal. Water Treat., 205 (2020) 386–399.
  32. V.K. Gupta, S. Agarwal, R Ahmad, A. Mirza, J. Mittal, Sequestration of toxic congo red dye from aqueous solution using ecofriendly guar gum/activated carbon nanocomposite, Int. J. Biol. Macromol., 158 (2020) 1310–1318.
  33. X. Pan, C. Deng, D. Zhang, J. Wang, G. Mu, Y. Chen, Toxic effects of amoxicillin on the photosystem II of Synechocystis sp. characterized by a variety of in vivo chlorophyll fluorescence tests, Aquat. Toxicol., 89 (2008) 207–213.
  34. H. Tekin, O. Bilkay, S.S. Ataberk, T.H. Balta, I.H. Ceribasi, F.D. Sanin, U. Yetis, Use of Fenton oxidation to improve the biodegradability of a pharmaceutical wastewater, J. Hazard. Mater., 136 (2006) 258–265.
  35. X.S. Wang, Y. Zhou, Y. Jiang, C. Sun, The removal of basic dyes from aqueous solutions using agricultural by-products, J. Hazard. Mater., 157 (2008) 374–385.
  36. L.A. Al-Khateeb, S. Almotiry, M.A. Salam, Adsorption of pharmaceutical pollutants onto graphene nanoplatelets, Chem. Eng. J., 248 (2014) 191–199.
  37. 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.
  38. Y.H. Lin, S. Xu, J. Li. Fast and highly efficient tetracycline removal from environmental waters by graphene oxide functionalized magnetic particles, Chem. Eng. J., 225 (2013) 679–685.
  39. P.H. Chang, Z.H. Li, T.L. Yu, S. Munkhbayer, T.H. Kuo, Sorptive removal of tetracycline from water by palygorskite, J. Hazard. Mater., 165 (2009)148–155.
  40. M. Brigante, P.C. Schulz, Remotion of the antibiotic tetracycline by titania and titania-silica composed material, J. Hazard. Mater., 192 (2011) 1597–1608.
  41. Y.P. Zhao, J.J. Geng, X.R. Wang, X.Y. Gu, S.X. Gao, Tetracycline adsorption on kaolinite: pH, metal cations and humic acid effects, Ecotoxicology, 20 (2011) 1141–1147.
  42. X. Yang, G.R. Xu, H.R. Yu, Z. Zhang, Preparation of ferricactivated sludge-based adsorbent from biological sludge for tetracycline removal, Bioresour. Technol., 211 (2012) 566–573.
  43. P. Liu, W.J. Liu, H. Jiang, JJ. Chen, W.W. Li, H.Q. Yu, Modification of bio-char derived fromfast pyrolysis of biomass and its application in removal of tetracycline from aqueous solution, Bioresour. Technol., 121 (2012) 235–240.
  44. J. Rivera-Utrilla, C.V. Gomez-Pacheco, M. Sonchez-Polo, J.J. Lopez-Peoalver, Tetracycline removal from water by adsorption/bioadsorption on activated carbons and sludgederived adsorbents, Environ. Manage., 131 (2013) 16–24.
  45. L.L. Ji, W. Chen, L. Duan, D.Q. Zhu. Mechanisms for strong adsorption of tetracycline to carbon nanotubes: a comparative study using activated carbon and graphite as adsorbents, Environ. Sci. Technol., 43 (2009) 2322–2327.
  46. D. Balarak, E. Bazrafshan, Y Mahdavi, S.M. Lee, Kinetic, isotherms and thermodynamic studies in the removal of 2-chlorophenol from aqueous solution using modified rice straw, Desal. Water Treat., 63 (2017) 203–211.
  47. D. Balarak, F. Mostafapour, E. Bazrafshan, T.A. Saleh, Studies on the adsorption of amoxicillin on multi-wall carbon nanotubes, Water Sci. Technol., 75 (2017) 1599–1606.
  48. Y. Tang, H. Guo, L. Xiao, S. Yu, N. Gao, Y. Wang, Synthesis of reduced graphene oxide/magnetite composites and investigation of their adsorption performance of fluoroquinolone antibiotics, Colloids Surf., A, 424 (2013) 74–80.
  49. H. Chen, Z. Zhang, M. Feng, W. Liu, W. Wang, Q. Yang, Y. Hu, Degradation of 2,4-dichlorophenoxyacetic acid in water by persulfate activated with FeS (mackinawite), Chem. Eng. J., 313 (2017) 498–507.
  50. B.N. Estevinho, I. Martins, N. Ratola, A. Alves, L. Santos, Removal of 2,4-dichlorophenol and pentachlorophenol from waters by sorption using coal fly ash from a Portuguese thermal power plant, J. Hazard. Mater., 143 (2007) 535–540.
  51. S. Ahmadi, A. Banach, F.K. Mostafapour, Study survey of cupric oxide nanoparticles in removal efficiency of ciprofloxacin antibiotic from aqueous solution: adsorption isotherm study, Desal. Water Treat., 89 (2017) 297–303.
  52. D. Balarak, H. Azarpira, Rice husk as a biosorbent for antibiotic metronidazole removal: isotherm studies and model validation, Int. J. ChemTech Res., 9 (2016) 566–573.
  53. D. Balarak, H. Azarpira, F.K. Mostafapour, Study of the adsorption mechanisms of cephalexin on to Azolla filiculoides, Pharm. Chem., 8 (2016) 114–121.
  54. F.A. Adekola, H.I. Adegoke, G.B. Adebayo, I.O. Abdulsalam, Batch sorption of ciprofloxacin on kaolinitic clay and nhematite composite: equilibrium and thermodynamics studies, Mor. J. Chem., 4 (2016) 384–424.
  55. L. Wang, G. Chen, C. Ling, J. Zhang, K. Szerlag, Adsorption of ciprofloxacin on to bamboo charcoal: effects of pH, salinity, cations, and phosphate, Environ. Prog. Sustain., 36 (2017) 1108–1115.
  56. D. Balarak, Z. Taheri, M.J. Shim, S.M. Lee, C. Jeon, Adsorption kinetics and thermodynamics and equilibrium of ibuprofen from aqueous solutions by activated carbon prepared from Lemna minor, Desal. Water Treat., 215 (2021) 183–193.
  57. D. Balarak, M. Baniasadi, S.M. Lee, M.J. Shim, Ciprofloxacin adsorption onto Azolla filiculoides activated carbon from aqueous solutions, Desal. Water Treat., 218 (2021) 444–453.
  58. A.D. Khatibi, A.H. Mahvi, N. Mengelizadeh, Adsorptiondesorption of tetracycline onto molecularly imprinted polymer: isotherm, kinetics, and thermodynamics studies, Desal. Water Treat., 230 (2021) 240–251.
  59. A. Meshkinain, B. Davoud, Y. Nastaran, Optimization of nickel oxide nanoparticle synthesis through the sol-gel method for adsorption of Penicillin G, Res. J. Chem. Environ., 25 (2021) 31–36.