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P. Novak, M. Kolar, L. Machala, et al. \u201eTransformations of ferrates(iv,v,vi) in liquids: Mossbauer spectroscopy of frozen solutions<\/a>,\u201cPHYSICAL CHEMISTRY CHEMICAL PHYSICS , vol. 20, Issue: 48, pp. 30247-30256, 2018.<\/p>\n J. Kaslik, J. Kolarik, J. Filip, et al. \u201eNanoarchitecture of advanced core-shell zero-valent iron particles with controlled reactivity for contaminant removal<\/a>,\u201cCHEMICAL ENGINEERING JOURNAL, vol. 354 pp. 335-345, 2018.<\/p>\n J. Semerad, M. Cvancarova, J. Filip, et al. \u201eNovel assay for the toxicity evaluation of nanoscale zero-valent iron and derived nanomaterials based on lipid peroxidation in bacterial species<\/a>,\u201c CHEMOSPHERE, vol. 213, pp. 568-577, 2018.<\/p>\n J. Kolarik, R. Prucek, J. Tucek, et al. \u201eImpact of inorganic ions and natural organic matter on arsenates removal by ferrate(VI): Understanding a complex effect of phosphates ions<\/a>,\u201cWATER RESEARCH, vol. 141, pp. 357-365, 2018.<\/p>\n Z. Kresinova, L. Linhartova, A. Filipova, et al. \u201eBiodegradation of endocrine disruptors in urban wastewater using Pleurotus ostreatus bioreactor<\/a>,\u201cNEW BIOTECHNOLOGY, vol. 43, pp. 53-61, 2018.<\/p>\n M. Ezechias, T. Cajthaml, \u201eNew insight into isobolographic analysis for combinations of a full and partial agonist: Curved isoboles<\/a>,\u201cTOXICOLOGY, vol. 402, pp. 9-16, 2018.<\/p>\n Nhung H. A Nguyen, R. Spanek, V. Kasalicky, et al. \u201eDifferent effects of nano-scale and micro-scale zero-valent iron particles on planktonic microorganisms from natural reservoir water<\/a>,\u201cENVIRONMENTAL SCIENCE-NANO, vol. 5, Issue: 5, pp. 1117-1129, 2018<\/p>\n A. \u0160evc\u016f, Y. S. El-Temsah, J. Filip, E. J. Joner, K. Bob\u010d\u00edkov\u00e1, M. \u010cern\u00edk: „Zero-valent iron particles for PCB degradation and an evaluation of their effects on bacteria, plants, and soil organisms<\/a>„,\u00a0ENVIRONMENTAL SCIENCE AND POLLUTION RESEARCH<\/i>, 2017. T. M. Lima, C. G. S. Lima, A. K. Rathi, M. B. Gawande, J. Tucek, E. A. Urquieta-Gonzalez, R. Zboril, M. W. Paixao, and R. S. Varma, „Magnetic ZSM-5 zeolite: a selective catalyst for the valorization of furfuryl alcohol to \u03b3-valerolactone, alkyl levulinates or levulinic acid<\/a>,“ GREEN CHEMISTRY, vol. 18, pp. 5586-5593, 2016.<\/p>\n K. Rathi, M. B. Gawande, J. Pechousek, J. Tucek, C. Aparicio, M. Petr, O. Tomanec, R. Krikavova, Z. Travnicek, R. S. Varma, and R. Zboril, „Maghemite decorated with ultra-small palladium nanoparticles ([gamma]-Fe2O3-Pd): applications in the Heck-Mizoroki olefination, Suzuki reaction and allylic oxidation of alkenes<\/a>,“ GREEN CHEMISTRY, vol. 18, pp. 2363-2373, 2016.<\/p>\n R. K. Sharma, S. Dutta, S. Sharma, R. Zboril, R. S. Varma, M. B. Gawande, „Fe3O4 (iron oxide)-supported nanocatalysts: synthesis, characterization and applications in coupling reactions<\/a>,“GREEN CHEMISTRY, vol. 18, iss. 11, pp. 3184-3209, 2016.<\/p>\n R. P. Kralchevska, R. Prucek, J. Kolarik, J. Tucek, L. Machala, J. Filip, V. K. Sharma, and R. Zboril, „Remarkable efficiency of phosphate removal: Ferrate(VI)-induced in situ sorption on core-shell nanoparticles<\/a> ,“ WATER RESEARCH<\/em>, vol. 103, pp. 83-91, 2016.<\/p>\n P. Slovak, O. Malina, J. Kaslik, O. Tomanec, J. Tucek, M. Petr, J. Filip, G. Zoppellaro, R. Zboril, „Zero-Valent Iron Nanoparticles with Unique Spherical 3D Architectures Encode Superior Efficiency in Copper Entrapment<\/a>,“ ACS SUSTAINABLE CHEMISTRY & ENGINEERING, vol. 4, iss. 5, pp. 2748-2753, 2016.<\/p>\n E. Petala, M. Baikousi, M. A. Karakassides, G. Zoppellaro, J. Filip, J. Tucek, K. C. Vasilopoulos, J. Pechousek, and R. Zboril, „Synthesis, physical properties and application of the zero-valent iron\/titanium dioxide heterocomposite having high activity for the sustainable photocatalytic removal of hexavalent chromium in water<\/a>,“ PHYS. CHEM. CHEM. PHYS., vol. 18, pp. 10637-10646, 2016.<\/p>\n J. Nemecek, P. Pokorny, O. Lhotsky, V. Knytl, P. Najmanova, J. Steinova, M. Cernik, A. Filipova, J. Filip, and T. Cajthaml, „Combined nano-biotechnology for in-situ remediation of mixed contamination of groundwater by hexavalent chromium and chlorinated solvents<\/a>“\u00a0 SCIENCE OF THE TOTAL ENVIRONMENT, vol. 563, pp. 822-834, 2016.<\/p>\n M. Ezechias, J. Janochova, A. Filipova, Z. Kresionva, T. Cajthaml, „Widely used pharmaceuticals present in the environment revealed as in vitro antagonists for human estrogen and androgen receptors<\/a>,“ CHEMOSPHERE, vol. 152, pp. 284-291, 2016.<\/p>\n R. K. Sharma, M. Yadav, Y. Monga, R. Gaur, A. Adholeya, R. Zboril, R. S. Varma, and M. B. Gawande, \u201eSilica-Based Magnetic Manganese Nanocatalyst \u2013 Applications in the Oxidation of Organic Halides and Alcohols<\/a>,\u201c ACS SUSTAINABLE CHEMISTRY & ENGINEERING, vol. 4, iss. 3, pp. 1123-1130, 2016.<\/p>\n K. Padrova, A. Cejkova, T. Cajthaml, I. Kolouchova, M. Vitova, K. Sigler, T. Rezanka, „Enhancing the lipid productivity of yeasts with trace concentrations of iron nanoparticles<\/a>“ FOLIA MICROBIOLOGICA, vol. 61, iss. 4, pp. 329-335, 2016.<\/p>\n V. K. Sharma, J. Filip, R. Zboril, and R. S. Varma, „Natural inorganic nanoparticles – formation, fate, and toxicity in the environment<\/a>,“ CHEM. SOC. REV., vol. 44, iss. 23, pp. 8410-8423, 2015.<\/p>\n T. Cajthaml, „Biodegradation of endocrine-disrupting compounds by ligninolytic fungi: mechanisms involved in the degradation<\/a>,“ ENVIRONMENTAL MICROBIOLOGY, vol. 17, iss. 12, pp. 4822-4834, 2015.<\/p>\n L. Machala, V. Prochazka, M. Miglierini, V. K. Sharma, Z. Marusak, H. Wille, and R. Zboril, „Direct evidence of Fe(v) and Fe(iv) intermediates during reduction of Fe(vi) to Fe(iii): a nuclear forward scattering of synchrotron radiation approach<\/a>,“ PHYS. CHEM. CHEM. PHYS., vol. 17, pp. 21787-21790, 2015.<\/p>\n P. Lacina, S. Goold, „Use of the ferrates (FeIV-VI) in combination with hydrogen peroxide for rapid and effective remediation of water – laboratory and pilot study<\/a>,“ WATER SCIENCE AND TECHNOLOGY, vol. 72, iss. 10, pp. 1869-1878, 2015.<\/p>\n V. K. Sharma and R. Zboril, „Ferryl and Ferrate Species: M\u00f6ssbauer Spectroscopy Investigation<\/a>,“ CROATICA CHEMICA ACTA, vol. 88, iss. 4, pp. 363-368, 2015.<\/p>\n V. K. Sharma, J. Filip, R. Zboril, and R. S. Varma, \u201eNatural inorganic nanoparticles \u2013 formation, fate, and toxicity in the environment<\/a>,\u201c CHEMICAL SOCIETY REVIEWS<\/em>, vol. 44, iss. 23, pp. 8410-8423, 2015.<\/p>\n L. Machala, V. Prochazka, M. Miglierini, V. K. Sharma, Z. Marusak, H. Wille, and R. Zboril, \u201eDirect evidence of Fe(V) and Fe(IV) intermediates during reduction of Fe(VI) to Fe(III): a nuclear forward scattering of synchrotron radiation approach<\/a>,\u201c PHYSICAL CHEMISTRY CHEMICAL PHYSICS<\/em>, vol. 17, iss. 34, pp. 21787-21790, 2015.<\/p>\n I. Safarik, K. Horska, K. Pospiskova, J. Filip, and M. Safarikova, \u201eMechanochemical synthesis of magnetically responsive materials from non-magnetic precursors<\/a>,\u201c MATERIALS LETTERS<\/em>, vol. 126, pp. 202-206, 2014.<\/p>\n J. Filip, F. Karlicky, Z. Marusak, P. Lazar, M. Cernik, M. Otyepka, and R. Zboril, \u201eAnaerobic Reaction of Nanoscale Zerovalent Iron with Water: Mechanism and Kinetics<\/a>,\u201c JOURNAL OF PHYSICAL CHEMISTRY C<\/em>, vol. 118, iss. 25, pp. 13817-13825, 2014.<\/p>\n S. Sa, M. B. Gawande, A. Velhinho, J. P. Veiga, N. Bundaleski, J. Trigueiro, A. Tolstogouzov, O. M. N. D. Teodoro, R. Zboril, R. S. Varma, and P. S. Branco, \u201eMagnetically recyclable magnetite-palladium (Nanocat-Fe-Pd) nanocatalyst for the Buchwald-Hartwig reaction<\/a>,\u201c GREEN CHEMISTRY<\/em>, vol. 16, iss. 7, pp. 3494-3500, 2014.<\/p>\n Safarik, K. Horska, K. Pospiskova, J. Filip, M. Safarikova, „Mechanochemical synthesis of magnetically responsive materials from non-magnetic precursors<\/a>,“ MATERIALS LETTERS, vol. 126, pp. 202-206, 2014.<\/p>\n J. Nemecek, O. Lhotsky, T. Cajthaml, „Nanoscale zero-valent iron application for in situ reduction of hexavalent chromium and its effects on indigenous microorganism populations<\/a>,“ SCIENCE OF THE TOTAL ENVIRONMENT, vol. 485, pp. 739-747, 2014.<\/p>\n V. T. Padil, M. Rouha, M. Cernik, „Hydrocolloid-Stabilized Magnetite for Efficient Removal of Radioactive Phosphates<\/a>,“ BIOMED RESEARCH INTERNATIONAL, an. 504760, 2014.<\/p>\n Z. Kresinova, L. Hostacna, J. Medkova, M. Cvancarova,T. Stella, T. Cajthaml, „Sensitive GC\/MS determination of 15 isomers of chlorobenzoic acids in accelerated solvent extracts of soils historically contaminated with PCBs and validation of the entire method<\/a>,“ INTERNATIONAL JOURNAL OF ENVIRONMENTAL ANALYTICAL CHEMISTRY, vol. 94, iss. 8, pp. 822-836, 2014.<\/p>\n Mary\u0161kov\u00e1 M, Ardao I, Garc\u00eda-Gonz\u00e1lez C. A., Martinov\u00e1 L, Rotkov\u00e1 J, \u0160evc\u016f A. (2016) Polyamide 6\/chitosan nanofibers as support for the immobilization of Trametes versicolor laccase for the elimination of endocrine disrupting chemicals<\/a>. Enzyme and Microbial Technology. 89: 31-38.<\/p>\n W.H. Teo, R. Zboril, I. Medrik, M. Pumera, \u201eFe-0 Nanomotors in Ton Quantities (10(20) Units) for Environmental Remediation<\/a>, \u201cCHEMISTRY-A EUROPEAN JOURNAL, vol. 22, pp. 4789-4793, 2016<\/p>\n R.K. Sharma, S. Sharma, S. Dutta, R. Zboril, M. B. Gawande, \u201cSilica-nanosphere-based organic\u2013inorganic hybrid nanomaterials: synthesis, functionalization and applications in catalysis<\/a>\u201c, GREEN CHEMISTRY, vol. 17, pp. 3207-3230, 2016<\/p>\n M. Kolar, P. Novak, KM Siskova, L. Machala, O. Malina, J. Tucek, V.K. Sharma, R. Zboril, \u201cImpact of inorganic buffering ions on the stability of Fe(VI) in aqueous solution: role of the carbonate ion<\/a>\u201c, PHYSICAL CHEMISTRY CHEMICAL PHYSICS, vol. 18, pp. 4415-4422, 2016<\/p>\n K. Jayaramulu, K. K. R. Datta, Ch. R\u00f6sler, M. Petr, M. Otyepka, R. Zboril, R. A. Fischer, \u201cBiomimetic Superhydrophobic\/superoleophilic Highly Fluorinated Graphene Oxide and ZIF-8 Composites for Oil-Water Separation<\/a>\u201c, ANGEWANDTE CHEMIE-INTERNATIONAL EDITION, vol. 55, pp. 1178-1182, 2016<\/p>\n S. Covino, T. Fabianova, Z. Kresinova, M. Cvancarova, E. Burianova, A. Filipova, J. Voriskova, P. Baldrian, T. Cajthaml, \u201cPolycyclic aromatic hydrocarbons degradation and microbial community shifts during co-composting of creosote-treated wood<\/a>\u201c, JOURNAL OF HAZARDOUS MATERIALS, vol. 301, pp. 17-26, 2016<\/p>\n J. Dolina, L. Dvorak, T. Lederer, T. Vackova, S. Mikmekova, M. Slouf, M. Cernik, \u201cCharacterisation of morphological, antimicrobial and leaching properties of in situ prepared polyurethane nanofibres doped with silver behenate\u201c, RSC ADVANCES, vol. 6, pp. 23816-23826, 2016<\/p>\n M. Homolkova, P. Hrabak, M. Kolar, M. Cernik, \u201cDegradability of chlorophenols using ferrate(VI) in contaminated groundwater<\/a>\u201c, ENVIRONMENTAL SCIENCE AND POLLUTION RESEARCH, vol. 23, pp. 1408-1413, 2016<\/p>\n V. K. Sharma, L. Chen, R. Zbo\u0159il, \u201cReview on High Valent Fe-VI (Ferrate): A Sustainable Green Oxidant in Organic Chemistry and Transformation of Pharmaceuticals<\/a>\u201c, ACS SUSTAINABLE CHEMISTRY & ENGINEERING, vol. 4, pp. 18-34, 2016<\/p>\n K.J. Datta, M.B. Gawande, K.K.R. Datta, V. Ranc, J. Pechousek, M. Krizek, J. Tucek, R. Kale, P. Pospisil, R.S. Varma, T. Asefa, G. Zoppellaro, R. Zboril. \u201cMicro-Mesoporous Iron Oxides with Record Efficiency for Decomposition of Hydrogen Peroxide: Morphology Driven Catalysis for Degradation of Organic Contaminants<\/a>\u201c, JOURNAL OF MATERIALS CHEMISTRY A, vol. 4, pp. 596-604, 2016<\/p>\n J. N\u011bme\u010dek, P. Pokorn\u00fd, L. Lacinov\u00e1, M. \u010cern\u00edk, Z. Masopustov\u00e1, O. Lhotsk\u00fd, A. Filipov\u00e1, and T. Cajthaml, „Combined abiotic and biotic in-situ reduction of hexavalent chromium in groundwater using nZVI and whey: A remedial pilot test<\/a> „, JOURNAL OF HAZARDOUS MATERIALS, vol. 300, pp. 670-679, 2015<\/p>\n J. Dolina, T. Ji\u0159\u00ed\u010dek, and T. Lederer, „Biocide modification of ultrafiltration membranes using nanofiber structures<\/a>„, Desalination and Water Treatment, vol. 56, pp. 3252-3258, 2015<\/p>\n P. Zaj\u00ed\u010dek, M. Kol\u00e1\u0159, R. Prucek, V. Ranc, P. Bedn\u00e1\u0159, R. S. Varma, V. K. Sharma, and R. Zbo\u0159il, „Oxidative degradation of triazine- and sulfonylurea-based herbicides using Fe(VI): The case study of atrazine and iodosulfuron with kinetics and degradation products<\/a>„, T. Stella, S. Covino, E. Burianov\u00e1, A. Filipov\u00e1, Z. K\u0159esinov\u00e1, J. Vo\u0159\u00ed\u0161kov\u00e1, T. V\u011btrovsk\u00fd, P. Baldri\u00e1n, and T. Cajhaml, „Chemical and microbiological characterization of an aged PCB-contaminated soil<\/a>„, SCIENCE OF THE TOTAL ENVIRONMENT, vol. 533, pp. 177-186, 2015<\/p>\n M. Baikousi, Y. Georgiou, Ch. Daikopoulos, A. B. Bourlinos, J. Filip, R. Zbo\u0159il, Y. Deligiannakis, and M. A. Karakassides, „Synthesis and characterization of robust zero valent iron\/mesoporous carbon composites and their applications in arsenic removal<\/a>“ , CARBON, vol. 93, pp. 636-647, 2015<\/p>\n M. Cvancarova, M. Moeder, A. Filipova, and T. Cajthaml, „Biotransformation of fluoroquinolone antibiotics by ligninolytic fungi – Metabolites, enzymes and residual antibacterial activity<\/a>„, Cemosphere<\/em>, vol 136, pp. 311-320, 2015.<\/p>\n K. Padrova, J. Lukavsky, L. Nedbalova, A. Cejkova, T. Cajthaml, K. Sigler, M. Vitova, and T. Rezanka,“Trace concentrations of iron nanoparticles cause overproduction of biomass and lipids during cultivation of cyanobacteria and microalgae“<\/a>, Journal of Applied Phycology<\/em>, vol. 27, iss. 4, pp. 1443-1451, 2015.<\/p>\n J.A. Siles, T. Cajthaml, P. Hernandez, D. Perez-Mendoza, I. Garcia-Romera, and I. Sampedro, „Shifts in Soil Chemical Properties and Bacterial Communities Responding to Biotransformed Dry Olive Residue Used as Organic Amendment<\/a>„, Microbial Ecology<\/em>, vol. 70, iss. 1, pp. 231-243, 2015.<\/p>\n P. Lacina, V. Dvorak, E. Vodickova, P. Barson, J. Kalivoda, and S. Goold, „The Application of Nano-Sized Zero-Valent Iron for In Situ Remediation of Chlorinated Ethylenes in Groundwater: A Field Case Study<\/a>„, Water Environment Research<\/em>, vol. 87, iss. 4, pp. 326-333, 2015.<\/p>\n B. Jarosova, J. Filip, K. Hilscherova, J. Tucek, Z. Simek, J.P. Giesy, R. Zboril, and L. Blaha, „Can zero-valent iron nanoparticles remove waterborne estrogens?<\/a>„, Journal of Environmental Management<\/em>, vol. 150, pp. 387-392, 2015.<\/p>\n R. Prucek, J. Tucek, J. Kolarik, I. Huskova, J. Filip, R.S. Varma, V.K.Sharma, and R. Zboril, „Ferrate(VI)-Prompted Removal of Metals in Aqueous Media: Mechanistic Delineation of Enhanced Efficiency via Metal Entrenchment in Magnetic Oxides<\/a>„, Environmental Science & Technology<\/em>, vol. 49, iss. 4, pp. 2319-2327, 2015.<\/p>\n I.Safarik, J. Filip, K. Horska, M. Nowakova, J. Tucek, M. Safarikova, H. Hashimoto, J. Takada, and R. Zboril, „Magnetically-modified natural biogenic iron oxides for organic xenobiotics removal<\/a>„, International Journal of Environmental Science and Technology<\/em>, vol. 12, iss. 2, pp. 673-682, 2015.<\/p>\n V.V.T. Padil, N.H.A. Nguyen, A. Sevcu, and M. Cernik, „Fabrication, Characterization, and Antibacterial Properties of Electrospun Membrane Composed of Gum Karaya, Polyvinyl Alcohol, and Silver Nanoparticles<\/a>„, Journal of Nanomaterials<\/em>, an. 750726, 2015.<\/p>\n M. Homolkova, P. Hrabak, M. Kolar, M. Cernik, „Degradability of hexachlorocyclohexanes in water using ferrate (VI)<\/a>„, Water Science and Technology<\/em>, vol. 71, iss. 3, pp. 405-411, 2015. IF = 1.106<\/p>\n B.J. Yates, R. Zboril, V.K. Sharma, „Engineering aspects of ferrate in water and wastewater treatment – a review<\/a>„, Journal of Environmental Science of Environmental Science and Health part A- Toxic\/Hazardous Substances & Environmental Engineering<\/em>, vol. 49, iss. 14, pp. 1603-1614, 2014.<\/p>\n M. Ezechias, S. Covino, and T. Cajthaml, „Ecotoxicity and biodegradability of new brominated flame retardants: A review<\/a>„, Ecotoxicology and Environmental Safety<\/em>, vol. 110, pp. 153-167, 2014.<\/p>\n W. Jiang, L. Chen, S.R. Batchu, P.R. Gardinali, L. Jasa, B. Marsalek, R. Zboril, D.D. Dionysiou, K.E. O’Shea, V.K. Sharma, „Oxidation of Microcystin-LR by Ferrate(VI): Kinetics, Degradation Pathways, and Toxicity Assessments<\/a>„, Environmental Science & Technology<\/em>, vol. 48, iss. 20, pp. 12164-12172, 2014.<\/p>\n B. J. Yates, R. Darlington, R. Zboril, V.K. Sharma, „High-valent iron-based oxidants to treat perfluorooctanesulfonate and perfluorooctanoic acid in water<\/a>„, Environmental Chemistry Letters<\/em>, vol. 12, iss. 3, pp. 413-417, 2014.<\/p>\n Machala, J. Filip, R. Prucek, J. Tucek, J. Frydrych, V. K. Sharma, and R. Zboril: \u201ePotassium Ferrite (KFeO2): Synthesis, Decomposition, and Application for Removal of Metals<\/a>\u201c, SCI. ADV. MATER.,<\/em> vol. 7, pp. 579-587, 2015.<\/p>\n K. R. Datta, E. Petala, K. J. Datta, J. A. Perman, J. Tucek P. Bartak, M. Otyepka, G. Zoppellaro, and R. Zboril: \u201eNZVI modified magnetic filter paper with high redox and catalytic activities for advanced water treatment technologies<\/a>\u201c, CHEM. COMMUN.,<\/em> vol. 50, pp. 15673-15676, 2014.<\/p>\n Jiang, L. Chen, S. R. Batchu, P. R. Gardinali, L. Jasa, B. Marsalek, R. Zboril, D. D. Dionysiou, K. E. O\u2019Shea, and V. K. Sharma: \u201eOxidation of microcystin-LR by ferrate)VI): kinetics, Degradation pathways, and toxicity assessment<\/a>\u201c, ENVIRON. SCI. TECHNOL.,<\/em> vol. 48, pp. 12164-12172, 2014.<\/p>\n J. Yates, R. Zboril, V. K. Sharma: \u201eEngineering aspects of ferrate in water and wastewater treatment \u2013 a review<\/a>\u201c, J.ENVIRON. SCI. HEALTH A<\/em>, vol. 49, pp. 1603-1614, 2014.<\/p>\n J. Filip, F. Karlick\u00fd, Z. Maru\u0161\u00e1k, P. Lazar, M. \u010cern\u00edk, M. Otyepka and R. Zbo\u0159il: „Anaerobic Reaction of Nanoscale Zerovalent Iron with Water: Mechanism and Kinetics<\/a>„, J. PHYS. CHEM. C<\/i>, vol. 118, iss. 25, pp. 13817-13825, 2014.<\/p>\n L. Lacinov\u00e1, M. \u010cern\u00edkov\u00e1, J. Hrabal and M. \u010cern\u00edk: „In-Situ Combination of Bio and Abio Remediation of Chlorinated Ethenes<\/a>„, ECOLOGICAL CHEMISTRY AND ENGINEERING S<\/i>, vol. 20, iss. 3, 2014.<\/p>\n I. Safarik and M. Safarikova: „One-step magnetic modification of non-magnetic solid materials<\/a>„, IJMR<\/i>, vol. 105, iss. 1, pp. 104-107, 2014.<\/p>\n B. J. Yates, R. Darlington, R. Zboril and V. K. Sharma: „High-valent iron-based oxidants to treat perfluorooctanesulfonate and perfluorooctanoic acid in water<\/a>„, ENVIRON CHEM LETT<\/i>, vol. 12, iss. 3, pp. 413-417, 2014.<\/p>\n V. K. Sharma, Z. Homonnay, K. Siskova, L. Machala, R. Zboril,\u00a0„M\u00f6ssbauer investigation of the reaction of ferrate(VI) with sulfamethoxazole and aniline in alkaline medium“<\/a>,\u00a0HYPERFINE INTERACTIONS, vol. 224, iss. 1-3, pp. 7-13, 2013.<\/p>\n M. Baikousi, C. Daikopoulos, Y. Georgiou, A. Bourlinos, R. Zbo\u0159il, Y. Deligiannakis, and M. A. Karakassides, „Novel Ordered Mesoporous Carbon with Innate Functionalities and Superior Heavy Metal Uptake<\/a>„, THE JOURNAL OF PHYSICAL CHEMISTRY C, vol. 117, iss. 33, pp. 16961-16971, 2013.<\/p>\n T. Stella, S. Covino, Z. K\u0159esinov\u00e1, A. D\u2019Annibale, M. Petruccioli, M. \u010cvan\u010darov\u00e1, T. Cajthaml, „Chlorobenzoic acid degradation by Lentinus (Panus) tigrinus: In vivo and in vitro mechanistic study-evidence for P-450 involvement in the transformation<\/a>„, JOURNAL OF HAZARDOUS MATERIALS, vol. 260, pp. 975-983, ISSN 0304-3894, 2013.<\/p>\n M. \u010cvan\u010darov\u00e1, Z. K\u0159esinov\u00e1, T. Cajthaml, „Influence of the bioaccessible fraction of polycyclic aromatic hydrocarbons on the ecotoxicity of historically contaminated soils<\/a>„, \u00a0JOURNAL OF HAZARDOUS MATERIALS, vol. 254\u2013255, pp. 116-124, ISSN 0304-3894, 2013.<\/p>\n L. Lacinov\u00e1, M. \u010cern\u00edkov\u00e1, J. Hrabal, \u00a0M \u010cern\u00edk, „In-Situ Combination of Bio and Abio Remediation of Chlorinated Ethenes<\/a>„, ECOLOGICAL CHEMISTRY AND ENGINEERING S., vol. 20, iss. 3, pp. 463\u2013473, 2013.<\/p>\n A. Pan\u00e1\u010dek, A. Balzerov\u00e1, R. Prucek, V. Ranc, R. Ve\u010de\u0159ov\u00e1, V. Husi\u010dkov\u00e1, J. Pechou\u0161ek, J. 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\nDOI: 10.1007\/s11356-017-9699-5<\/p>\n
\nSEPARATION AND PURIFICATION TECHNOLOGY, vol. 156, Special Issue, pp. 1041-1046, 2015<\/p>\n