References

  1. A. Kumar, B. Chang, I. Xagoraraki, Human health risk assessment of pharmaceuticals in water: Issues and challenges ahead, Int. J. Environ. Res. Public Health., 7 (2010) 3929–3953.
  2. P. Westerhoff, Y. Yoon, S. Snyder, E. Wert, Fate of endocrine-disruptor, pharmaceutical, and personal care product chemicals during simulated drinking water treatment processes, Environ. Sci. Technol., 39 (2005) 6649–6663.
  3. M. Magureanu, N.B. Mandache, V.I. Parvulescu, Degradation of pharmaceutical compounds in water by non-thermal plasma treatment, Water Res., 81 (2015) 124–136.
  4. M. Klavarioti, D. Mantzavinos, D. Kassinos, Removal of residual pharmaceuticals from aqueous systems by advanced oxidation processes, Environ. Int., 35 (2009) 402–417.
  5. T. Kosjek, E. Heath, A. Krbavčič, Determination of non-steroidal anti-inflammatory drug (NSAIDs) residues in water samples, Environ. Int., 31 (2005) 679–685.
  6. World Health Organization (WHO), Pharmaceuticals in drinking water: public health and environment water, sanitation, hygiene and health, Geneva, WHO/HSE/WSH/11.05, 2011, doi:10.1331/JAPhA.2010.09186.
  7. S.F. Owen, D.B. Huggett, T.H. Hutchinson, M.J. Hetheridge, L.B. Kinter, J.F. Ericson, J.P. Sumpter, Uptake of propranolol, a cardiovascular pharmaceutical, from water into fish plasma and its effects on growth and organ biometry, Aquat. Toxicol., 93 (2009) 217–224..
  8. J.F. Henriques, A.R. Almeida, T. Andrade, O. Koba, O. Golovko, A.M. Soares, M. Oliveira, I. Domingues, Effects of the lipid regulator drug gemfibrozil: A toxicological and behavioral perspective, Aquat. Toxicol., 170 (2016) 355–364.
  9. B. Halling-Sorensen, S.N. Nielsen, P.F. Lanzky, F. Ingerslev, H.C. Holten Lutzhoft, S.E. Jorgensen, Occurence, fate and effects of pharmaceuticals substance in the environment - A review, Chemosphere, 36 (1998) 357–393.
  10. S.K. Khetan, T.J. Collins, Human pharmaceuticals in the aquatic environment: a challenge to green chemistry, Chem. Rev., 107 (2007) 2319–2364.
  11. P. Wehrwein, Astounding increase in antidepressant use by Americans Title, Harvard Heal. Blog. (2011). http://www.health.harvard.edu/blog/astounding-increase-in-antidepressant-use-by-americans-201110203624 (accessed October 14, 2016).
  12. M. Himmelsbach, W. Buchberger, C.W. Klampfl, Determination of antidepressants in surface and waste water samples by capillary electrophoresis with electrospray ionization mass spectrometric detection after preconcentration using off-line solid-phase extraction, Electrophoresis, 27 (2006) 1220–1226.
  13. A.T. Ford, P.P. Fong, The effects of antidepressants appear to be rapid and at environmentally relevant concentrations, Environ. Toxicol. Chem., 35 (2016) 794–798.
  14. M.A. Embrey, Analyzing and controlling pharmaceutical expenditures, in: Management Sciences for Health (Ed.), MDS-3 Manag. Access to Med. Heal. Technol., 3rd ed., Kumarian Press, 2012.
  15. C. Postigo, D. Barceló, Synthetic organic compounds and their transformation products in groundwater: Occurrence, fate and mitigation, Sci. Total Environ., 503–504 (2015) 32–47.
  16. G.A. Loraine, M.E. Pettigrove, Seasonal variations ion concentrations of pharmaceuticals and personal care products in drinking water and reclaimed wastewater in Southern California, Environ. Sci. Technol., 40 (2006) 687–695.
  17. V. Homem, L. Santos, Degradation and removal methods of antibiotics from aqueous matrices - A review, J. Environ. Manage., 92 (2011) 2304–2347.
  18. I. Panorel, S. Preis, I. Kornev, H. Hatakka, M. Louhi-Kultanen, Oxidation of aqueous pharmaceuticals by pulsed corona discharge., Environ. Technol., 34 (2013) 923–930.
  19. M. Hijosa-Valsero, R. Molina, H. Schikora, M. Müller, J.M. Bayona, Removal of priority pollutants from water by means of dielectric barrier discharge atmospheric plasma, J. Hazard. Mater., 262 (2013) 664–673.
  20. J.R. Bolton, K.G. Bircher, W. Tumas, C.A. Tolman, Figuresof- merit for the technical development and application of advanced oxidation technologies for both electric- and solardriven systems (IUPAC Technical Report), Pure Appl. Chem., 73 (2001) 627–637.
  21. Q. Sui, J. Huang, S. Lu, S. Deng, B. Wang, W. Zhao, Z. Qiu, G. Yu, Removal of pharmaceutical and personal care products by sequential ultraviolet and ozonation process in a full-scale wastewater treatment plant, Front. Environ. Sci. Eng., 8 (2014) 62–68.
  22. R. Andreozzi, V. Caprio, R. Marotta, A. Radovnikovic, Ozonation and H2O2/UV treatment of clofibric acid in water: A kinetic investigation, J. Hazard. Mater., 103 (2003) 233–246.
  23. V. Augugliaro, E. García-López, V. Loddo, S. Malato-Rodríguez, I. Maldonado, G. Marcì, R. Molinari, L. Palmisano, Degradation of lincomycin in aqueous medium: Coupling of solar photocatalysis and membrane separation, Sol. Energy., 79 (2005) 402–408.
  24. C. Reyes, J. Fernández, J. Freer, M.A. Mondaca, C. Zaror, S. Malato, H.D. Mansilla, Degradation and inactivation of tetracycline by TiO2 photocatalysis, J. Photochem. Photobiol. A Chem., 184 (2006) 141–146.
  25. L.A. Pérez-Estrada, S. Malato, W. Gernjak, A. Agüera, E.M. Thurman, I. Ferrer, A.R. Fernandez-Alba, Photo-Fenton degradation of diclofenac: Identification of main intermediates and degradation pathway, Environ. Sci. Technol., 39 (2005) 8300–8306.
  26. H. Shemer, Y.K. Kunukcu, K.G. Linden, Degradation of the pharmaceutical Metronidazole via UV, Fenton and photo-Fenton processes, Chemosphere, 63 (2006) 269–276.
  27. P. Lukes, B.R. Locke, Degradation of substituted phenols in a hybrid gas−liquid electrical discharge reactor, Ind. Eng. Chem. Res., 44 (2005) 2921–2930.
  28. J. Brisset, D. Moussa, A. Doubla, E. Hnatiuc, B. Hnatiuc, G. Kamgang Youbi, J.M. Herry, M. Naitali, M.N. Bellon-Fontaine, Chemical reactivity of discharges and temporal post-discharges in plasma treatment of aqueous media: examples of gliding discharge treated solutions, Ind. Eng. Chem. Res., 47 (2008) 5761–5781.
  29. B.R. Locke, M. Sato, P. Sunka, M.R. Hoffmann, J.-S. Chang, Electrohydraulic discharge and nonthermal plasma for water treatment, Ind. Eng. Chem. Res., 45 (2006) 882–905.
  30. D. Dobrin, C. Bradu, M. Magureanu, N.B. Mandache, V.I. Parvulescu, Degradation of diclofenac in water using a pulsed corona discharge, Chem. Eng. J., 234 (2013) 389–396.
  31. H. Krause, B. Schweiger, E. Prinz, J. Kim, U. Steinfeld, Degradation of persistent pharmaceuticals in aqueous solutions by a positive dielectric barrier discharge treatment, J. Electrostat., 69 (2011) 333–338.
  32. Y. Liu, S. Mei, D. Iya-Sou, S. Cavadias, S. Ognier, Carbamazepine removal from water by dielectric barrier discharge: Comparison of ex situ and in situ discharge on water, Chem. Eng. Process. Process Intensif., 56 (2012) 10–18.
  33. M. Magureanu, D. Piroi, N.B. Mandache, V. David, A. Medvedovici, C. Bradu, V.I. Parvulescu, Degradation of antibiotics in water by non-thermal plasma treatment, Water Res., 45 (2011) 3407–3416.
  34. M. Marković, M. Jović, D. Stanković, V. Kovačević, G. Roglić, G. Gojgić-Cvijović, D. Manojlovic, Application of non-thermal plasma reactor and Fenton reaction for degradation of ibuprofen, Sci. Total Environ., 505 (2015) 1148–1155.
  35. M. Magureanu, D. Dobrin, N.B. Mandache, C. Bradu, A. Medvedovici, V.I. Parvulescu, The mechanism of plasma destruction of enalapril and related metabolites in water, Plasma Process. Polym., 10 (2013) 459–468.
  36. M. Sato, T. Tokutake, T. Ohshima, A.T. Sugiarto, Aqueous phenol decomposition by pulsed discharges on the water surface, IEEE Trans. Ind. Appl., 44 (2008) 1397–1402.
  37. A.T. Sugiarto, S. Ito, T. Ohshima, M. Sato, J.D. Skalny, Oxidative decoloration of dyes by pulsed discharge plasma in water, J. Electrostat., 58 (2003) 135–145.
  38. A.M. Vandenbroucke, R. Morent, N. De Geyter, C. Leys, Non-thermal plasmas for non-catalytic and catalytic VOC abatement, J. Hazard. Mater., 195 (2011) 30–54.
  39. G. Haghighat, A. Sohrabi, P.M. Shaibani, C.W. Van Neste, S. Naicker, T. Thundat, The role of chloride ions in plasma-activated water treatment processes, Environ. Sci. Water Res. Technol., 3 (2017) 156–168.
  40. R. Balachandran, M. Zhao, B. Dong, I. Brown, S. Raghavan, M. Keswani, Role of ammonia and carbonates in scavenging hydroxyl radicals generated during megasonic irradiation of wafer cleaning solutions, Microelectron. Eng., 130 (2014) 82–86.
  41. P. Lukes, E. Dolezalova, I. Sisrova, M. Clupek, Aqueous-phase chemistry and bactericidal effects from an air discharge plasma in contact with water: evidence for the formation of peroxynitrite through a pseudo-second-order post-discharge reaction of H2O2 and HNO2, Plasma Sources Sci. Technol, 23 (2014) 15019.
  42. F. Huang, L. Chen, H. Wang, Z. Yan, Analysis of the degradation mechanism of methylene blue by atmospheric pressure dielectric barrier discharge plasma, Chem. Eng. J., 162 (2010) 250–256.
  43. R.P. Joshi, S.M. Thagard, Streamer-like electrical discharges in water: Part II. environmental applications, Plasma Chem. Plasma Process., 33 (2013) 17–49.
  44. M. Li, Organic Chemistry of Drug Degradation, Royal Society of Chemistry, Ringoes, New Jersey, 2012.
  45. W. Waters, A. Rollin, C. Bardwell, J. Schneider, T. Aanerud, Oxidation of secondary alcohols with ozone, J. Org. Chem., 41 (1976) 889–891.
  46. P. Lukes, A.T. Appleton, B.R. Locke, Hydrogen peroxide and ozone formation in hybrid gas–liquid electrical discharge reactors, IEEE Trans. Ind. Appl., 40 (2004) 60–67.
  47. P. Lukes, B.R. Locke, Plasmachemical oxidation processes in a hybrid gas–liquid electrical discharge reactor, J. Phys. D Appl. Phys., 38 (2005) 4074–4081.