References
- Barbusiński, K., Nocoń, W., Nocoń, K., & Kernert, J. (2012). The role of suspended solids in the transport of heavy metals in surface water, exemplified by the Klodnica River (Upper Silesia). Ochrona Srodowiska, 34(2), 33–38.
- https://www.scbt.com/scbt/product/potassium-ferrate-vi-39469-86-8 [01.02.2018].
- Tiwari, D., & Lee, S.M. (2011). Ferrate (VI) in the treatment of wastewaters: a new generation green chemical. Waste Water Treatment and Reutilization, 12, 241–276.
- Sharma, V.K., Kazama, F., Jiangyong, H., & Ray, A.K. (2005). Ferrates iron(VI) and iron(V), Environmentally friendly oxidants and disinfectants. Journal of Water and Health, 3(1), 45–58.
- Wei, Y.L., Wang, Y.S., & Liu, C.H. (2015). Preparation of potassium ferrate from spent steel pickling liquid. Metals, 5(4), 1770–1787.
- http://www.ferrate.eu/pdf/laymanexplanation.pdf [01.02. 2018].
- Sharma, V.K. (2002). Potassium ferrate(VI): an environmental friendly oxidant. Advances in Environmental Research, 6(2), 143–156.
- Li, C., Li, X.Z., & Graham, N. (2005). A study of preparation and reactivity of potassium ferrate. Chemosphere, 61(4), 537–543.
- Kooti, M., Jorfi, M., & Javadi, H. (2010). Rapid chemical synthesis of four ferrate (VI) compounds. Journal of the Iranian Chemical Society, 7(4), 814–819.
- Li, C. (2006). Mechanism and performance of potassium ferrate in endocrine disrupting chemicals. Dept. Of Civil & Structural Engineering, 1–250.
- Liu, Z., Kanjo, Y., & Mizutani, S. (2009). Removal mechanism for endocrine disrupting compounds (EDC’s) in wastewater treatment – physical means, biodegradation and chemical advanced oxidation: a review. Science of the Total Environment, 407(2), 731–748.
- Colbrom, T., vom Saal, F.S., & Soto, A.M. (1993). Developmental effects of endocrine disrupting chemicals in wildlife and humans. Environmental Health Perspectives, 101(5), 378–384.
- Jiang, J.Q., Yin, Q., Zhou, J.L., & Pearce, P. (2005). Occurrence and treatment trials of endocrine disrupting chemicals (EDC’s) in wastewaters. Chemosphere, 61(4), 544–550.
- Lee, Y., & Yoon, J. (2005). Oxidation of phenolic contaminants during water treatment with ferrate (Fe(VI)): a kinetic study. Applied Chemistry, 9(1), 205–208.
- Li, C. Mechanisms and performance of potassium ferrate in endocrine disrupting chemicals. PhD Thesis. Department of Civil and Structural Engineering. The Hong Kong Polytechnic University, 05.2006. https://www.researchgate.net/publication/47870596_Mechanisms_and_performance_of_potassium_ferrate_in_endocrine_disrupting_chemicals [30.07.2019].
- Han, Q., Dong, W., Wang, H., Liu, T., Tian, Y., & Song, X. (2018). Degradation of tetrabromobisphenol A by ferrate(VI) oxidation: performance, inorganic and organic products, pathway and toxicity control. Chemosphere, 198, 92–102.
- Yang, B., Ying, G., Zhao, J., Zhou, L., & Chen, F. (2012). Removal of selected endocrine disrupting chemicals (EDC’s) and pharmaceuticals and personal care products (PPCP’s) during ferrate(VI) treatment of secondary wastewater effluents. Water Research, 46(7), 2194–2204.
- Lee, Y., Yoon, J., & von Gunten, U. (2005). Kinetics of the oxidation of phenols and phenolic endocrine disruptors during water treatment with ferrate (Fe(VI)). Environmental Science Technology, 39(22), 8978–8984.
- Wang, G., & Feng, L. (2013). Experimental studies on application of potassium ferrate for 3-methylphenol removal from solution in laboratory. Procedia Environmental Sciences, 18, 486–492.
- Li, C., & Dong, F. (2016). Ferrites and Ferrates: Chemistry and Applications in Sustainable Energy and Environment. American Chemical Society.
- Li, C., Li, X.Z., Graham, A.N.N., & Gao, N. (2008). The aqueous degradation of Bisphenol A and steroid estrogens by ferrate. Water Research, 42(1–2), 109–120.
- Peings, V., Frayret, J., & Pigot, T. (2015). Mechanism for the oxidation of phenol by sulfatoferrate (VI): Comparison with various oxidants. Journal of Environmental Management, 1, 287–296.
- Anquandah, G.A.K., & Sharma, V.K. (2009). Oxidation of octylphenol by ferrate(VI). Journal of Environmental Science and Health, Part A, 44(1), 62–66.
- Lee, S.M., & Tiwari, D. (2009). Application of ferrate(VI) in treatment of industrial wastes containing metal-complexed cyanides: a green treatment. Journal of Environmental Science, 21(10), 1347–1352.
- Lee, Y., & von Gunten, U. (2010). Oxidative transformation of micropollutants during municipal waste-water treatment: comparison of kinetic aspects of selective (chlorine, chlorine dioxide, ferrate(VI) and ozone) and non-selective oxidants (hydroxyl radical). Water Resources, 44(2), 555–566.
- Yang, B., Ying, G.G., Chen, Z.F., Zhao, J.L, Peng, F.Q., & Chen, X.W. (2014). Ferrate(VI) oxidation of tetrabromobisphenol A in comparison with bisphenol A. Water Research, 62, 211–219.
- http://home.agh.edu.pl/nmos1/FUK/FChUK-FCUK_micelizacja.pdf [04.02.18].
- Prochaska, K., Bielska, M., & Dopierała, K. (2009). Selected physicochemical aspects of membrane filtration. Membrany Teoria i Praktyka, III, 80–109.
- http://encyklopedia.naukowy.pl/jodofory (04.02.18).
- Janeczek, M., Jakubiec, J., & Mizerski, A. (2015). Evaluation of the wetting and extinguishing abilities of anionic and nonionic surfactants in conditions similar to practical by using methods based on NFPA 18 standard. Przemysł Chemiczny, 94(10), 1737–1741.
- Eng, Y.Y., Sharma, V.K., & Ray, A.K. (2006). Ferrate (VI): green chemistry oxidant for degradation of cationic surfactant. Chemosphere, 63(10), 1785–1790.
- Ebele, A.J., Abou-Elwafa, A., & Stuart, M.H. (2017). Pharmaceuticals and personal care products (PPCPs) in the freshwater aquatic environment. Journal of Emerging Contaminants, 3(1), 1–16.
- Jiang, J.Q. (2013). The role of ferrate(VI) in the remediation of emerging micro pollutants. Procedia Environmental Science, 18, 418-426.
- Noorhasan, N., Patel, B., & Sharma, V.K. (2010). Ferrate(VI) oxidation of glycine and glycyloglycine: kinetics and products. Water Research, 44(3), 927–935.
- Diaz-Cruz, M.S., & Barcelo, D. (2015). Personal Care Products in the Aquatic Environment, Springer International Publishing.
- Wu, K., Wang, H., Zhou, C., Amina, Y., & Si, Y. (2018). Efficient oxidative removal of sulfonamide antibiotics from the wastewater by potassium ferrate. Journal of Advanced Oxidation Technologies, 21(1), 97–108.
- Zhou, Z., & Jiang, J.Q. (2015). Reaction kinetics and oxidation products formation in the degradation of ciprofloxacin and ibuprofen by ferrate(VI). Chemosphere, 119, 95–100.
- Karlesa, A., De Vera, G.A.D, Dodd, M.C., Park, J., Espino, M.P.B., & Lee, Y. (2014). Ferrate(VI) oxidation of β-lactam antibiotics: reaction, antibacterial activity changes, and transformation products. Environmental Science Technology, 48(17), 10380–10389.
- Anquandah, G., Ray, M.B., Ray, A.K., Al.-Abduly, A.J., & Sharma, V.K. (2011). Oxidation of X-ray compound ditrizoic acid by ferrate (VI). Environmental Technology, 32(3), 261–267.
- Anquandah, G.A.K., Sharma, V.K., Panditi, V.R., Gardinali, P.R., Kim, H., & Oturan, M.A. (2013). Ferrate(VI) oxidation of propranolol: kinetics and products. Chemosphere, 91(1), 105–109.
- Sharma, V.K., Zboril, R., & Varma, R.S. (2015). Ferrates: greener oxidants with multimodal action in water treatment technologies. Accounts of Chemical Research, 48(2), 182–191.
- Huber, M.M., Canonica, S., Park, G., & von Gunten, U. (2003). Oxidation of pharmaceuticals during ozonation and advanced oxidation processes. Environmental Science and Technology, 37(5), 1016–1024.
- Sharma, V.K., Mishra, S.M., & Ray, A.K. (2006). Kinetic assessment of the potassium ferrate(VI) oxidation of antibacterial drug sulfamethoxazole. Chemosphere, 62, 128–134.
- Sharma, V.K., Mishra, S.M., & Nesnas, N. (2006). Oxidation of sulfonamide antimicrobials by ferrate(VI). Environmental Science and Technology, 40(23), 7222–7227.
- Zhao, J., Liu Y., Wang, Q., Fu, Y., Lu, X., & Bai, X. (2018). The self-catalysis of ferrate(VI) by its reactive byproducts or reductive substances for the degradation of diclofenac: kinetics, mechanism and transformation products. Separation and Purification Technology, 192, 412–418.
- Rodriguez-Mozaz, S., Chamorro, S., Marti, E., & Huerta, B. (2015). Occurrence of antibiotics and antibiotic resistance genes in hospital and urban wastewaters and their impact on the receiving river. Water Resources, 69, 234–242.
- Sharma, V.K., Johnson, N., Cizmas, L., McDonald, T.J., & Kim, H. (2016). A review of the influence of treatment strategies on antibiotic resistant bacteria and antibiotic resistance genes. Chemosphere, 150, 702–714.
- Feng, M., & Wang, X. (2016). Degradation of fluoroquinolone antibiotics by ferrate(VI): effects of water constituents and oxidized products. Water Research, 103, 48–57.
- Thomas, M., Barbusiński, K., Kliś, S., Szpyrka, E., & Chyc, M. (2018). Synthetic textile wastewater treatment using potassium ferrate(VI) – application of Taguchi method for optimisation of experiment. Fibres Text. Estern Eur. 26(3), 111–117.
- Kliś, S., Barbusiński, K., Thomas, M., & Mochnacka, A. (2019). Application of potassium ferrate(VI) for oxidation of selected pollutants in aquatic environment – short review. Architecture Civil Engineering Environment. 12(1), 129–137.
- Thomas, M., Kliś, S., Barbusiński, K., & Chyc, M. (2019). Removal of Acid Red 27, Reactive Black 5 and Acid Green 16 from aqueous solutions using potassium ferrate(VI). Fibres Text. Estern Eur. 27(4), 71–75.