{"id":502,"date":"2019-02-04T15:51:47","date_gmt":"2019-02-04T14:51:47","guid":{"rendered":"http:\/\/websrv.saske.sk\/uef\/en\/?page_id=502"},"modified":"2025-12-17T11:56:41","modified_gmt":"2025-12-17T10:56:41","slug":"publications","status":"publish","type":"page","link":"https:\/\/websrv.saske.sk\/uef\/en\/departments\/department-of-magnetism\/publications\/","title":{"rendered":"Publications"},"content":{"rendered":"

2025<\/span><\/h2>\n
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  1. Lazarenko, M.M., Zabashta, Y.F., Cherevko, K.V., Sobchuk, A.O., Alekseev, O.M., Yablochkova, K.S., Alekseev, S.A., Dinzhos, R.V., Koseva, N.S., Petrenko, V.I., Kop\u010dansk\u00fd, P.<\/strong>, Bulavin, L.A.; Nanocomposite Materials: The Boundary Layer and the Thermodynamics of Inclusion Melting; (2025) ACS Applied Materials and Interfaces, 17 (31), pp. 45033 \u2013 45041. DOI: 10.1021\/acsami.5c06650, Q1, IF: 8.2<\/li>\n
  2. Kucharova, V., Diko, P., Volochov\u00e1, D., Raj\u0148\u00e1k, M.<\/strong>; Influence of additives on microstructural evolution and superconducting performance of EuBCO-Ag compounds; (2025) Journal of Alloys and Compounds, 1040, art. no. 183581. DOI: 10.1016\/j.jallcom.2025.183581, Q1, IF: 6.3<\/li>\n
  3. Radu\u0161ovsk\u00e1, M., Volochov\u00e1, D., Raj\u0148\u00e1k, M.<\/strong>, Smolko, R., Diko, P. ; Effect of the addition of nanosize BaCeO3<\/sub> on the structure and properties of bulk single grain GdBCO-Ag superconductors; (2025) Journal of Alloys and Compounds, 1021, art. no. 179689. DOI: 10.1016\/j.jallcom.2025.179689, Q1, IF: 6.3<\/li>\n
  4. Kovalik M.<\/strong>, Jur\u00edkov\u00e1 A.<\/strong>, Kubov\u010d\u00edkov\u00e1 M.<\/strong>, Mihalik M.<\/strong>, Zentkov\u00e1 M.<\/strong>, Bal\u00e1\u017e M., Brian\u010din J., Buj\u0148\u00e1kov\u00e1 Z.L., Vavra M., Lisnichuk M., Majern\u00edk M., Bo\u0161kovi\u0107 M., Perovi\u0107 M., Jend\u017eelovsk\u00fd R., Pol\u010d\u00e1k J., Mihalik M.<\/strong>; Preparation of magnetic fluids based on La0.80Ag0.15MnO3-\u03b4 nanoparticles; (2025) Colloids and Surfaces A: Physicochemical and Engineering Aspects, 711, art. no. 136300. DOI: 10.1016\/j.colsurfa.2025.136300, Q1, IF: 5.4<\/li>\n
  5. Parekh K., Upadhyay R., Raj\u0148\u00e1k M.<\/strong>, Doln\u00edk B., Timko M.<\/strong>, Kop\u010dansk\u00fd P.<\/strong>; Effects of static electric field and temperature on the dynamic dielectric responses of mixed oil-based and bilayer-stabilised magnetic fluids; (2025) Nanoscale, 17 (39), pp. 22927 – 22939. DOI: 10.1039\/d5nr02856f, Q1, IF: 5.1<\/li>\n
  6. Kondrakhova, D., Unger, M., Stadler, H., Zaku\u0165ansk\u00e1, K.<\/strong>, Toma\u0161ovi\u010dov\u00e1, N.<\/strong>, Tome\u010dkov\u00e1, V., Hor\u00e1k, J., Kim\u00e1kov\u00e1, T., Komanick\u00fd, V.; Determination diabetes mellitus disease markers in tear fluid by photothermal AFM-IR analysis; (2025) Nanomedicine: Nanotechnology, Biology, and Medicine, 64, art. no. 102803. DOI: 10.1016\/j.nano.2025.102803, Q1, IF: 4.6<\/li>\n
  7. Raj\u0148\u00e1k, M.<\/strong>, Kurimsky, J., Paulovi\u010dov\u00e1, K.<\/strong>, T\u00f3thov\u00e1, J., Kir\u00e1ly, J., Cimbala, R. Vibration energy harvesting by ferrofluids in external magnetic fields; (2025) Scientific Reports, 15 (1), art. no. 26701. DOI: 10.1038\/s41598-025-12490-w, Q1, IF: 3.9<\/li>\n
  8. S<\/strong>\u01cefa<\/strong>\u0159\u00edk, I.<\/strong>, Prochazkova, J., Kikionis, S., Roussis, V., Ioannou, E.; Development of a Textile Solid-Phase Extraction Method Employing the Marine Sulfated Polysaccharide Ulvan for the Extraction and Analysis of Cationic Dyes; (2025) Chemosensors, 13 (2), art. no. 75. DOI: 10.3390\/chemosensors13020075, Q2, IF: 3.7<\/li>\n
  9. Flynn S., Benyacko C.L., Mihalik M.<\/strong>, Lee J., Ma F., Bates M.E., Sinha S., Abboud K.A., Mihalik M.<\/strong>, Meisel M.W., Hamlin J.J.; Synthesis of cobalt grown from Co-S eutectic in high magnetic fields; (2025) Physical Review Materials, 9 (9), art. no. 09440. DOI: 10.1103\/9bb3-4pby, Q1, IF: 3.4<\/li>\n
  10. Paulovi\u010dov\u00e1, K.<\/strong>, Raj\u0148\u00e1k, M.<\/strong>, T\u00f3thov\u00e1, J., Doln\u00edk, B., Timko, M.<\/strong>, Kop\u010dansk\u00fd, P.<\/strong>; Rheodielectric study of transformer-oil-based ferrofluids; (2025) Physical Review E, 111 (4), art. no. 045403. DOI: 10.1103\/PhysRevE.111.045403, Q1, IF: 2.4<\/li>\n
  11. S<\/strong>\u01cefa<\/strong>\u0159\u00edk, I.<\/strong>, Prochazkova, J.; Prussian Blue Bound to Color Catcher Sheets as an Efficient Nanozyme System Exhibiting Peroxidase-Like Activity; (2025) Fibers and Polymers, 26 (9), pp. 3715 \u2013 3720. DOI: 10.1007\/s12221-025-01085-x, Q2, IF: 2.3<\/li>\n
  12. Mihalik M.<\/strong>, Mol\u010danov\u00e1 Z., Cehulov\u00e1 D., Vavra M., Mihalik M.<\/strong>; Influence of Chemical Doping on Magnetic Characteristic of ErMn1-x<\/sub>Fex<\/sub>O3<\/sub> Multiferroic System; (2025) IEEE Transactions on Magnetics, 61 (6), art. no. 4100304. DOI: 10.1109\/TMAG.2024.3459815, Q2, IF: 1.9<\/li>\n
  13. Pillarova P.<\/strong>, Antal I.<\/strong>, Khmara I.<\/strong>, Zavisova V.<\/strong>, Kubovcikova M.<\/strong>, Jurikova A.<\/strong>, Jedinak V.<\/strong>, Kovac J., Koneracka M.<\/strong>; Polyvinyl Alcohol-Coated Magnetic Nanoparticles for Biomedical Applications; (2025) IEEE Transactions on Magnetics. DOI: 10.1109\/TMAG.2025.3634275, Q2, IF: 1.9<\/li>\n
  14. Khmara I.<\/strong>, Kubovcikova M.<\/strong>, Molcan M.<\/strong>, Girman V., Fabian M., Hreus K., Zavisova V.<\/strong>, Koneracka M.<\/strong>; Comparative Characterization of Structural, Magnetic Properties, and Heating Efficiency of Single- and Multicore Iron Oxide Nanoparticles; (2025) IEEE Transactions on Magnetics, 61 (11), art. no. 5400605; DOI: 10.1109\/TMAG.2025.3618008, Q2, IF: 1.9<\/li>\n
  15. Veveri\u010d\u00edk M., Bury P., \u010cernobila F., Toma\u0161ovi\u010dov\u00e1 N.<\/strong>, Lackov\u00e1 V.<\/strong>, Miakota D.<\/strong>, K\u00f3nyov\u00e1 K.<\/strong>, Timko M.<\/strong>, Kop\u010dansk\u00fd P.<\/strong>, Jeng S.-C., Jaro\u0161ov\u00e1 M.; Influence of silica nanoparticles on nematic liquid crystal structural and electro-optical properties; (2025) European Physical Journal B, 98 (10), art. no. 209. DOI: 10.1140\/epjb\/s10051-025-01051-9, Q3, IF: 1.7<\/li>\n
  16. Gevorgyan A.H., Bulanov A.V., Oganesyan K.B.<\/strong>; Features of magnetically induced exceptional points in cholesteric liquid crystals; (2025) Laser Physics Letters, 22 (2), art. no. 026001. DOI: 10.1088\/1612-202X\/ad9d20, Q3, IF: 1.4<\/li>\n
  17. Kovalchuk, O.V.; Proch\u00e1zkov\u00e1, J.; Kovalchuk, T.M.; Volokh, L.V.; Oleinikova, I.; Marian, J.; Safarik, I.; Kopansky, P.<\/strong>; Effect of biochar binding on dielectric properties of color catcher sheets; (2025) Semiconductor Physics, Quantum Electronics and Optoelectronics. 28. 322-328. DOI: 10.15407\/spqeo28.03.322, Q3, IF: 1.0<\/li>\n
  18. Miakota D.<\/strong>, Lackov\u00e1 V.<\/strong>, K\u00f3nyov\u00e1 K.<\/strong>, Jaro\u0161ov\u00e1 M., Jur\u00edkov\u00e1 A., Kop\u010dansk\u00fd P.<\/strong>, Toma\u0161ovi\u010dov\u00e1 N.<\/strong>; Structural Transitions in Ferronematics under Electric and Magnetic Fields; (2025) Physics of Particles and Nuclei, 56 (6), pp. 1530 – 1535. DOI: 10.1134\/S1063779625700819, Q3, IF: 0.5<\/li>\n
  19. Oganesyan K.B.<\/strong>, Bu\u0161a J., Jr., Dzier\u017c\u0119ga K., Gevorgyan A.H., Hnati\u010d M., \u0160afa\u0159\u00edk I.<\/strong>, Timko M.<\/strong>, Kop\u010dansk\u00fd P.<\/strong>; Plasma Diagnostics in High Magnetic Fields; (2025) Physics of Particles and Nuclei, 56 (6), pp. 1566 – 1570. DOI: 10.1134\/S106377962570087X, Q3, IF: 0.5<\/li>\n
  20. \u0160afa\u0159\u00edk I.<\/strong>, Proch\u00e1zkov\u00e1 J., Raj\u0148\u00e1k M.<\/strong>, Timko M.<\/strong>, Kop\u010dansk\u00fd P.<\/strong>; Congo Red Decolorization Using Cotton Textile Bound Iron Oxide Particles; (2025) Physics of Particles and Nuclei, 56 (6), pp. 1604 – 1608. DOI: 10.1134\/S1063779625700947, Q3, IF: 0.5<\/li>\n
  21. Bulavin, L.A., Zabulonov, Y., Kop\u010dansk\u00fd, P.<\/strong>, Rudnikov, Y.; Comparative analysis of the temperature dependence of adiabatic thermodynamic coefficients of liquid H2<\/sub>O, H2<\/sub>O2<\/sub>, and Ar; (2025) Ukrainian Journal of Physics, 70 (2), pp. 99 \u2013 108. DOI: 15407\/UJPE70.2.99, Q4, IF: N\/A<\/li>\n
  22. Zolochevsk\u00e1<\/strong>,, \u0160afa\u0159\u00edk, I.<\/strong>, Raj\u0148\u00e1k, M.<\/strong>, Doln\u00edk B, Maslyuk V, Svatiuk N, Kop\u010dansk\u00fd, P.<\/strong>; Shielding Properties and Radiation Modification of Magnetic Nanoparticle-Functionalized Textiles; (2025) Acta Electrotechnica et Informatica, 25 (3), pp. 3 – 9. DOI: 10.2478\/aei-2025-0009, N\/A<\/li>\n
  23. Oganesyan K.B.<\/strong>, Gevorgyan A.H., Ivanyan K.V., Kopcansky P.<\/strong>; Relativistic Strophotron Free Electron Laser, Proceedings of IPAC\u20192025, https:\/\/doi.org\/10.18429\/JACoW-IPAC25-MOPB014, N\/A<\/li>\n<\/ol>\n

    2024<\/span><\/h2>\n
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    1. Kurimsk\u00fd, J., Raj\u0148\u00e1k, M.<\/strong>, \u0160\u00e1rpataky, M., Cimbala, R., Paulovi\u010dov\u00e1, K.<\/strong>, Krbal, M., Kop\u010dansk\u00fd, P.<\/strong>; Analysis of impulse withstand voltage of ester-based nanofluids, (2024) Surfaces and Interfaces, 53, art. no. 105032, DOI: 10.1016\/j.surfin.2024.105032, Q1, IF: 5.7<\/li>\n
    2. Havran, P., Cimbala, R., Doln\u00edk, B., Raj\u0148\u00e1k, M.<\/strong>, \u0160tefko, R., Kir\u00e1ly, J., Kurimsk\u00fd, J., Paulovi\u010dov\u00e1, K.<\/strong>; Dielectric relaxation spectroscopy of hybrid insulating nanofluids in time, distribution, and frequency domain, (2024) Journal of Molecular Liquids, 409, art. no. 125409, DOI: 10.1016\/j.molliq.2024.125409, Q1: IF: 5.3<\/li>\n
    3. K\u00f3nyov\u00e1, K.<\/strong>, Miakota, D.<\/strong>, Lackov\u00e1, V.<\/strong>, Jeng, S.-C., W\u0119g\u0142owska, D., Agresti, F., Kop\u010dansk\u00fd, P.<\/strong>, Toma\u0161ovi\u010dov\u00e1, N.<\/strong>; Effect of magnitude of voltage and magnetic field on memory effect in nematic phase of liquid crystal and their composites with aerosil and goethite nanoparticles, (2024) Journal of Molecular Liquids, 400, art. no. 124511, DOI: 10.1016\/j.molliq.2024.124511, Q1: IF: 5.3<\/li>\n
    4. Barta A., Cebova M., Kovac A., Koneracka M.<\/strong>, Zavisova V.<\/strong>, Pechanova O.; Aliskiren-Loaded Nanoparticles Downregulate (Pro)renin Receptor and ACE Gene Expression in the Heart of Spontaneously Hypertensive Rats: Effect on NADPH Oxidase, (2024) International Journal of Molecular Sciences, 25 (2), art. no. 846, DOI: 10.3390\/ijms25020846, Q1, IF: 4.9<\/li>\n
    5. Roha\u013eov\u00e1, S., Wolaschka, T., Balazova, \u013d., Paulovi\u010dov\u00e1, K.<\/strong>, T\u00f3thov\u00e1, J., Pavlokov\u00e1, S., Stahorsk\u00fd, M., Gajdziok, J.;Formulation optimization and evaluation of oromucosal in situ gel loaded with silver nanoparticles prepared by green biosynthesis(2024) European Journal of Pharmaceutical Sciences, 193, art. no. 106683.DOI: 10.1016\/j.ejps.2023.106683, Q1, IF: 4.3<\/li>\n
    6. Shlapa Y., Siposova K., Sarnatskaya V., Drajnova M., Silvestre-Albero J., Lykhova O., Maraloiu V.-A., Solopan S.O., Molcan M.<\/strong>, Musatov A., Belous A.; Bioactive Carbon@CeO2<\/sub> Composites as Efficient Antioxidants with Antiamyloid and Radioprotective Potentials, (2024) ACS Applied Bio Materials, 7 (10), pp. 6749 – 6767, DOI: 10.1021\/acsabm.4c00912, Q1, IF: 4.7<\/li>\n
    7. Gomes M.M., Vilarinho R., Zhao H., \u00cd\u00f1iguez-Gonz\u00e1lez J., Mihalik M.<\/strong>, Mihalik Jr M.<\/strong>, Maia A., Goian V., Nuzhnyy D., Kamba S., Moreira J.A.; Lattice excitations in NdFeO3<\/sub> through polarized optical spectroscopies, (2024) Scientific Reports, 14 (1), art. no. 15378, DOI: 10.1038\/s41598-024-66594-w, Q1, IF: 3.8<\/li>\n
    8. Zele\u0148\u00e1kov\u00e1 A., Zele\u0148\u00e1k V., Be\u0148ov\u00e1 E., Ko\u010d\u00edkov\u00e1 B., Kir\u00e1ly N., Hrubov\u010d\u00e1k P., Sz\u0171csov\u00e1 J., Nagy \u013d., Klementov\u00e1 M., Ma\u010d\u00e1k J., Z\u00e1vi\u0161ov\u00e1 V.<\/strong>, Bednar\u010d\u00edk J., Kup\u010d\u00edk J., Jackov\u00e1 A., Volavka D., Ko\u0161uth J., Vil\u010dek \u0160.; The surface modification of the silica-coated magnetic nanoparticles and their application in molecular diagnostics of virus infection, (2024) Scientific Reports, 14 (1), art. no. 14427, DOI: 10.1038\/s41598-024-64839-2, Q1, IF: 3.8<\/li>\n
    9. Gevorgyan A.H., Vanyushkin N.A., Efimov I.M., Kamenev A.O., Malinchenko A.A., Golik S.S., Oganesyan K.B.<\/strong>; Theoretical study of a tunable optical device on the base of magnetoactive cholesteric liquid crystals, (2024) Optical Materials, 156, art. no. 115961, DOI: 10.1016\/j.optmat.2024.115961, Q1: IF: 3.8<\/li>\n
    10. Kurimsk\u00fd, J., Raj\u0148\u00e1k, M.<\/strong>, Paulovi\u010dov\u00e1, K.<\/strong>, \u0160\u00e1rpataky, M.; Electric partial discharges in biodegradable oil-based ferrofluids: A study on effects of magnetic field and nanoparticle concentration, (2024) Heliyon, 10 (7), art. no. e29259, Q1: IF: 3.4<\/li>\n
    11. Maia A., Vilarinho R., Proschek P., Lebeda M., Mihalik M., Jr.<\/strong>, Mihalik M.<\/strong>, Manuel P., Khalyavin D.D., Kamba S., Agostinho Moreira J.; Strong impact of low-level substitution of Mn by Fe on the magnetoelectric coupling in TbMn O3<\/sub>, (2024) Physical Review Materials, 8 (8), art. no. 084405, DOI: 10.1103\/PhysRevMaterials.8.084405, Q1, IF: 3.1<\/li>\n
    12. Bielas, R., Kubiak, T., Molcan, M.<\/strong>, Dobosz, B., Rajnak, M.<\/strong>, J\u00f3zefczak, A.; Biocompatible Hydrogel-Based Liquid Marbles with Magnetosomes, (2024) Materials, 17 (1), art. no. 99, DOI: 10.3390\/ma17010099, Q2, IF: 3.1<\/li>\n
    13. Bal\u00e1\u017e, P., Raj\u0148\u00e1k, M.<\/strong>, Kub\u00ed\u010dkov\u00e1, L., Hud\u00e1kov\u00e1, M.B., Daneu, N., Levinsk\u00fd, P., Kn\u00ed\u017eek, K., Hejtm\u00e1nek, J., Navr\u00e1til, J., Kmje\u010d, T., D\u017eunda, R., Achimovi\u010dov\u00e1, M., \u0160estinov\u00e1, O., Bal\u00e1\u017e, M.; Mechanochemical preparation of nanocrystalline, stannite\/chatkalite composite: kinetics of synthesis and thermoelectric properties(2024) Journal of Thermal Analysis and Calorimetry, DOI: 10.1007\/s10973-024-12931-0, Q2, IF: 3.0<\/li>\n
    14. Molcan, M.<\/strong>, Skumiel, A., Tothova, J., Paulovicova, K.<\/strong>, Kopcansky, P.<\/strong>, Timko, M.<\/strong>; The Influence of Viscosity on Heat Dissipation under Conditions of the High-Frequency Oscillating Magnetic Field, (2024) Magnetochemistry, 10 (1), art. no. 2, DOI: 10.3390\/magnetochemistry10010002, Q2, IF: 2.6<\/li>\n
    15. Raj\u0148\u00e1k, M.<\/strong>, Paulovi\u010dov\u00e1, K.<\/strong>, Kurimsk\u00fd, J., T\u00f3thov\u00e1, J., Cimbala, R., K\u00f3nyov\u00e1, K.<\/strong>, Dzida, M., Timko, M.<\/strong>, Kop\u010dansk\u00fd, P.<\/strong>; Comparison of physical properties of ferrofluids based on mineral transformer oil and bio-degradable gas-to-liquid oil, (2024) Journal of Magnetism and Magnetic Materials, 589, art. no. 171628, DOI: 10.1016\/j.jmmm.2023.171628, Q2, IF: 2.5<\/li>\n
    16. Lackov\u00e1, V.<\/strong>, Schroer, M.A., H\u00e4hsler, M., Zakutansk\u00e1, K.<\/strong>, Behrens, S., Kop\u010dansk\u00fd, P.<\/strong>, Toma\u0161ovi\u010dov\u00e1, N.<\/strong>; The collective ordering of magnetic nanoparticles in a nematic liquid crystal, (2024) Journal of Magnetism and Magnetic Materials, 589, art. no. 171616, DOI: 10.1016\/j.jmmm.2023.171616, Q2, IF: 2.5<\/li>\n
    17. Khmara I.<\/strong>, Antal I.<\/strong>, Jurikova A.<\/strong>, Kubovcikova M.<\/strong>, Zavisova V.<\/strong>, Girman V., Koneracka M.<\/strong>; Influence of coating on peroxidase-like activity of magnetic nanoparticles, (2024) Journal of Magnetism and Magnetic Materials, 591, art. no. 171748, DOI: 10.1016\/j.jmmm.2024.171748, Q2, IF: 2.5<\/li>\n
    18. Pe\u0142ka, R., Sza\u0142owski, K., Raj\u0148\u00e1k, M.<\/strong>, Sas, W., Czernia, D., Konieczny, P., Kobylarczyk, J., Mih\u00e1lik, M., K\u00f6gerler, P.; Low-temperature magnetocaloric effect of the polyoxovanadate molecular magnet {VIV\/V<\/sup>12<\/sub>As8<\/sub>}: An experimental study, (2024) Journal of Magnetism and Magnetic Materials, 591, art. no. 171722, DOI: 10.1016\/j.jmmm.2024.171722, Q2, IF: 2.5<\/li>\n
    19. Safarik, I.<\/strong>, Prochazkova, J., Zelena Pospiskova, K.; Copper\u2013chitosan-modified magnetic textile as a peroxidase-mimetic catalyst for dye removal, (2024) Separations, 11(11):325, DOI: 10.3390\/separations11110325, Q3, IF: 2.5<\/li>\n
    20. Bury, P., Veveri\u010d\u00edk, M., \u010cernobila, F., Toma\u0161ovi\u010dov\u00e1, N.<\/strong>, Lackov\u00e1, V.<\/strong>, K\u00f3nyov\u00e1, K.<\/strong>, \u0160afa\u0159\u00edk, I.<\/strong>, Petrenko, V., Tomchuk, O., Timko, M.<\/strong>, Kop\u010dansk\u00fd, P.<\/strong>; The Role of Diamonds Dispersed in Ferronematic Liquid Crystals on Structural Properties, (2024) Crystals, 14 (3), art. no. 202, DOI: 10.3390\/cryst14030202, Q2, IF: 2.4<\/li>\n
    21. Safarik I.<\/strong>, Prochazkova J.; Color Catcher Sheets for the Construction of Low-Cost, Planar Optical Sensors, (2024) Fibers and Polymers, DOI: 10.1007\/s12221-024-00713-2, Q2, IF: 2.2<\/li>\n
    22. Oganesyan, K.B.<\/strong>, Dzierzega, K., Gevorgyan, A.H., Kopcansky, P.<\/strong>; Stimulated magneto-optics with different detunings for plasma local diagnostics, (2024) Laser Physics Letters, 21 (6), art. no. 066001, DOI: 10.1088\/1612-202X\/ad45da, Q3, IF: 1.4<\/li>\n
    23. Oganesyan, K.B.<\/strong>, Gevorgyan, A.H., Miakota, D.<\/strong>, Kopcansky, P.<\/strong>; Transition layer of the relativisyic strophotron, (2024) Laser Physics Letters, 21 (4), art. no. 046002, DOI: 10.1088\/1612-202X\/ad244d, Q3, IF: 1.4<\/li>\n
    24. Kovalchuk, O.V., Prochazkova, J., Kolanowska, A., Boncel, S., Mariano, J., Zolochevska, K.<\/strong>, Kovalchuk ,T.M., Kop\u010dansk\u00fd, P.<\/strong>, Safarik , I.<\/strong>; Effect of modification of nonwoven textiles with biochar and multi-walled carbon nanotubes on their dielectric properties, (2024) Semiconductor Physics, Quantum Electronics & Optoelectronics, 27 (3), p. 308-314, DOI: 10.15407\/spqeo27.03.308, Q3, IF: 1.1<\/li>\n
    25. Antosova A., Gancar M., Bednarikova Z., Antal I.<\/strong>, Verducci P., Parmar O., Kubovcikova M.<\/strong>, Koneracka M.<\/strong>, Zavisova V.<\/strong>, Graziosi P., Luppi B., Gazova Z., Bystrenova E.; Anti-amyloid activity of amino acid functionalized magnetic nanoparticles on \u03b1Lactalbumin aggregation, (2024) Nano-Structures and Nano-Objects, 40, art. no. 101413, DOI: 10.1016\/j.nanoso.2024.101413, Q1, IF: –<\/li>\n<\/ol>\n

      2023<\/span><\/h2>\n
        \n
      1. Kopcansky, P.<\/strong>, Balejcikova, L., Molcan, M.<\/strong>, Strbak, O., Safarik, I.<\/strong>, Baldikova, E., Prochazkova, J., Angelova, R., Pospiskova, K.Z., Rajnak, M., Paulovicova, K., Karpets, M., Timko, M., Tomasovicova, N., Zakutanska, K., Lackova<\/strong>, V., Bury, P.; Magnetic Nanoparticles Change the Properties of Traditional Materials and Open up New Application Possibilities, (2023) Material Aspects of Ferrofluids, pp. 214-249., DOI: 10.1201\/9781003274247-11, Book Chapter<\/li>\n
      2. Shlapa Y., Siposova K., Veltruska K., Maraloiu V.-A., Garcarova I., Rajnak M.<\/strong>, Musatov A., Belous A.; Design of Magnetic Fe3<\/sub>O4<\/sub>\/CeO2<\/sub> “Core\/Shell”-Like Nanocomposites with Pronounced Antiamyloidogenic and Antioxidant Bioactivity, (2023) ACS applied materials & interfaces, 15 (42), pp. 49346 – 49361., DOI: 10.1021\/acsami.3c10845, Q1, IF: 10.383<\/li>\n
      3. Havran, P., Cimbala, R., Kurimsk\u00fd, J., Raj\u0148\u00e1k, M.<\/strong>, Doln\u00edk, B., Medve\u010f, D., Kir\u00e1ly, J.; Dielectric relaxation response of electrical insulating liquids under different natures of thermal stress, (2023) Journal of Materials Research and Technology, 25, pp. 1599-1611. DOI: 10.1016\/j.jmrt.2023.06.033, Q1, IF: 6.4<\/li>\n
      4. Bednarikova, Z., Kubovcikova, M.<\/strong>, Antal, I.<\/strong>, Antosova, A., Gancar, M., Kovac, J., Sobotova, R.<\/strong>, Girman, V., Fedunova, D., Koneracka, M.<\/strong>, Gazova, Z., Zavisova, V.<\/strong>; Silica-magnetite nanoparticles: Synthesis, characterization and nucleic acid separation potential, (2023) Surfaces and Interfaces, 39, art. no. 102942., DOI: 10.1016\/j.surfin.2023.102942, Q1, IF: 6.2<\/li>\n
      5. Zakutansk\u00e1 K.<\/strong>, Miakota D.<\/strong>, Lackov\u00e1 V.<\/strong>, Jeng S.-C., W\u0119g\u0142owska D., Agresti F., Jaro\u0161ov\u00e1 M., Kop\u010dansk\u00fd P.<\/strong>, Toma\u0161ovi\u010dov\u00e1 N.<\/strong>; Effect of temperature on memory effect in nematic phase of liquid crystal and their composites with aerosil and geothite nanoparticles, (2023) Journal of Molecular Liquids, 391, art. no. 123357, DOI: 10.1016\/j.molliq.2023.123357, Q1, IF: 6<\/li>\n
      6. Bielas, R., Kubiak, T., Kop\u010dansk\u00fd, P.<\/strong>, \u0160afa\u0159\u00edk, I., J\u00f3zefczak, A.; Tunable particle shells of thermo-responsive liquid marbles under alternating magnetic field, (2023) Journal of Molecular Liquids, 391, art. no. 123283. DOI: 10.1016\/j.molliq.2023.123283, Q1, IF: 6<\/li>\n
      7. Kurimsk\u00fd, J., Raj\u0148\u00e1k, M.<\/strong>, Cimbala, R.; Pulse induced failures in bi-axially oriented polypropylene capacitors: Experimental investigation, (2023) Ain Shams Engineering Journal, 14 (9), art. no. 102086,DOI: 10.1016\/j.asej.2022.102086, Q1, IF: 6<\/li>\n
      8. Kubovcikova, M.<\/strong>, Sobotova, R.<\/strong>, Zavisova, V.<\/strong>, Antal, I.<\/strong>, Khmara, I<\/strong>., Lisnichuk, M., Bednarikova, Z., Jurikova, A.<\/strong>, Strbak, O., Vojtova, J., Mikolka, P., Gombos, J., Lokajova, A., Gazova, Z., Koneracka, M.; N-Acetylcysteine-Loaded Magnetic Nanoparticles for Magnetic Resonance Imaging, (2023) International Journal of Molecular Sciences, 24 (14), art. no. 11414., DOI: 10.3390\/ijms241411414, Q1, IF: 5.6<\/li>\n
      9. \u015eaman, E., Cebova, M., Barta, A., Koneracka, M.<\/strong>, Zavisova, V.<\/strong>, Eckstein-Andicsova, A., Danko, M., Mosnacek, J., Pechanova, O.; Combined Therapy with Simvastatin- and Coenzyme-Q10-Loaded Nanoparticles Upregulates the Akt-eNOS Pathway in Experimental Metabolic Syndrome, (2023) International Journal of Molecular Sciences, 24 (1), art. no. 276., DOI: 10.3390\/ijms24010276, Q1, IF: 5.6<\/li>\n
      10. Antal, I.<\/strong>, Strbak, O., Zavisova, V.<\/strong>, Vojtova, J., Kubovcikova M.<\/strong>, Jurikova, A.<\/strong>, Khmara, I.<\/strong>, Girman V., D\u017eunda R., Kova\u013e K., Koneracka, M.<\/strong>; Development of Positively Charged Poly-L-Lysine Magnetic Nanoparticles as Potential MRI Contrast Agent, (2023) Nanomaterials, 13 (12), art. no. 1831., DOI: 10.3390\/nano13121831, Q1, IF: 5.3<\/li>\n
      11. Bury, P., Veveri\u010d\u00edk, M., \u010cernobila, F., Toma\u0161ovi\u010dov\u00e1, N.<\/strong>, Lackov\u00e1, V.<\/strong>, Zakutansk\u00e1, K.<\/strong>, Timko, M.<\/strong>, Kop\u010dansk\u00fd, P.<\/strong>; Study on the Memory Effect in Aerosil-Filled Nematic Liquid Crystal Doped with Magnetic Nanoparticles, (2023) Nanomaterials, 13, 2987, DOI: 10.3390\/nano13232987, Q1, IF 5.3<\/li>\n
      12. Nassrah, A.R.K., Batkova, M.<\/strong>, Toma\u0161ovi\u010dov\u00e1, N.<\/strong>, T\u00f3th-Katona, T.; Photoaligning Polymeric Command Surfaces: Bind, or Mix?, (2023) Polymers, 15, 4271, DOI: 10.3390\/polym15214271,Q1, IF: 5<\/li>\n
      13. Raj\u0148\u00e1k, M.<\/strong>, Doln\u00edk, B., Paulovi\u010dov\u00e1, K.<\/strong>, Cimbala, R., Kop\u010dansk\u00fd, P., Timko, M.<\/strong>, Parekh, K., Upadhyay, R.V.; Dielectric spectrum of a ferrofluid layer exposed to a gradient magnetic field, (2023) Journal of Chemical Physics, 158 (20), art. no. 204901, DOI: 10.1063\/5.0151811, Q1, IF: 4.304<\/li>\n
      14. Tome\u010dkov\u00e1, V., Tk\u00e1\u010dikov\u00e1, S., Talian, I., Fabriciov\u00e1, G., Hovan, A., Kondrakhova, D., Zakutansk\u00e1, K.<\/strong>, Skirkov\u00e1, M., Komanick\u00fd, V., Toma\u0161ovi\u010dov\u00e1, N.<\/strong>; Experimental Analysis of Tear Fluid and Its Processing for the Diagnosis of Multiple Sclerosis, (2023) Sensors, 23 (11), art. no. 5251, DOI: 10.3390\/s23115251, Q1, IF: 3.9<\/li>\n
      15. Maia A., Vilarinho R., Kadlec C., Lebeda M., Mihalik M., Jr.<\/strong>, Zentkov\u00e1 M.<\/strong>, Mihalik M.<\/strong>, Moreira J.A., Kamba S.; Modifying the magnetoelectric coupling in TbMnO3<\/sub> by low-level Fe3+<\/sup> substitution, (2023) Physical Review B, 107 (10), art. no. 104410., DOI: 10.1103\/PhysRevB.107.104410, Q1, IF 3.7<\/li>\n
      16. Vilarinho R., Vil\u00e3o R.C., Alberto H.V., Marinopoulos A.G., Gil J.M., Luetkens H., Guguchia Z., Mihalik M.<\/strong>, Mihalik, M., Jr<\/strong>, Agostinho Moreira J.; Understanding the magnetic dynamics and magnetostructural coupling in the paramagnetic phase of TbMnO3<\/sub> by muon-spin spectroscopy, (2023) Physical Review B, 108 (17), art. no. 174401., DOI: 10.1103\/PhysRevB.108.174401, Q1, IF: 3.7<\/li>\n
      17. \u0160\u00e1rpataky, M., Kurimsk\u00fd, J., Raj\u0148\u00e1k, M.<\/strong>, Krbal, M., Adam\u010d\u00e1k, M.; Dielectric Performance of Natural- and Synthetic-Ester-Based Nanofluids with Fullerene Nanoparticles, (2023) Energies, 16 (1), art. no. 343, DOI: 10.3390\/en16010343, Q1, IF: 3.2<\/li>\n
      18. Mihalik M.<\/strong>, Vavra M., Mol\u010danov\u00e1 Z., Brian\u010din J., Mihalik M.<\/strong>; Magnetic phase diagram of SmMn1\u2212x<\/sub>Fex<\/sub>O3<\/sub> substitutional system, (2023) Physica B: Condensed Matter, 660, art. no. 414850., DOI: 10.1016\/j.physb.2023.414850, Q2, IF: 2.8<\/li>\n
      19. Mihalik M.<\/strong>, Mihalik M., Jr.<\/strong>, Kovalik M.<\/strong>, Fitta M., Zentkov\u00e1 M.<\/strong>; Magnetic relaxations in La0.80<\/sub>Ag0.15<\/sub>MnO3+\u03b4<\/sub> nanoparticles, (2023) Journal of Magnetism and Magnetic Materials, 587, art. no. 171253., DOI: 10.1016\/j.jmmm.2023.171253, Q2, IF: 2.7<\/li>\n
      20. Mihalik M., Jr.<\/strong>, Mihalik M.<\/strong>, Hoser A.; Magnetism in PrMn0.6<\/sub>Fe0.4<\/sub>O3<\/sub> compound, (2023) Journal of Magnetism and Magnetic Materials, 565, art. no. 170216., DOI: 10.1016\/j.jmmm.2022.170216, Q2, IF: 2.7<\/li>\n
      21. Jameel B., Paulovi\u010dov\u00e1 K.<\/strong>, T\u00f3thov\u00e1 J., Raj\u0148\u00e1k M.<\/strong>, Mol\u010dan M.<\/strong>, Bielas R., J\u00f3zefczak A.; Magnetorheological characterization of oil-in-oil magnetic Pickering emulsions, (2023) Journal of Magnetism and Magnetic Materials, 588, art. no. 171433.DOI: 10.1016\/j.jmmm.2023.171433, Q2, IF: 2.7<\/li>\n
      22. Bury, P., Veveri\u010d\u00edk, M., \u010cernobila, F., Toma\u0161ovi\u010dov\u00e1, N., Timko, M., Kop\u010dansk\u00fd, P.<\/strong>, Agresti, F., Barison, S.; Influence of Goethite Nanorods on Structural Changes and Transitions in Nematic Liquid Crystal E7, (2023) Crystals, 13 (2), art. no. 162, DOI: 10.3390\/cryst13020162, Q2, IF: 2.67<\/li>\n
      23. Balejcikova, L.; Zolochevska, K.<\/strong>; Tomasovicova, N.<\/strong>; Nagornyi, A.; Tomchuk, O.; Petrenko, V.I.; Garamus, V.M.; Alm\u00e1sy, L.; Timko, M.<\/strong>; Kopcansky, P.<\/strong>; Variations in the Structural and Colloidal Stability of Magnetoferritin under the Impact of Technological Process Modulations, (2023) Crystals, 13, 1493, DOI: 10.3390\/cryst13101493, Q2, IF: 2.67<\/li>\n
      24. Bury, P., Veveri\u010d\u00edk, M., \u010cernobila, F., Toma\u0161ovi\u010dov\u00e1, N., Zakutansk\u00e1, K., Timko, M., Miakota, D., Kop\u010dansk\u00fd, P.<\/strong>; Surface acoustic wave investigation of magnetic nanoparticle size and concentration effect on liquid crystal behavior, (2023) Journal of the Acoustical Society of America, 153 (6), pp. 3292-3300., DOI: 10.1121\/10.0019684, Q1, IF: 2.482<\/li>\n
      25. Gevorgyan A.H., Vanyushkin N.A., Efimov I.M., Oganesyan K.B.<\/strong>; Linear and circular dichroisms of cholesteric liquid crystals in a longitudinal external magnetic field, (2023) Liquid Crystals., DOI: 10.1080\/02678292.2023.2219987, Q2, IF: 2.2<\/li>\n
      26. Gevorgyan A.H., Vanyushkin N.A., Efimov I.M., Kamenev A.O., Golik S.S., Gharagulyan H., Sarukhanyan T.M., Daher M.G., Oganesyan K.B.<\/strong>; Strong light absorption and absorption absence in photonic crystals with helical structure in an external static magnetic field, (2023) Journal of the Optical Society of America B: Optical Physics, 40 (8), pp. 1986 – 199., DOI: 10.1364\/JOSAB.492188, Q2, IF: 1.9<\/li>\n
      27. Szucsova, J., Zelenakova, A., Nagy, L., Barutiak, M., Benova, E., Zelenak, V., Zavisova, V.<\/strong>; Influence of Ligands on Physicochemical Characteristics of Magnetic Nanoparticles, (2023) Journal of Nano Research, 78, pp. 91-96., DOI: 10.4028\/p-2×4090, Q3, IF: 1.78<\/li>\n
      28. Havran, P., Cimbala, R., Bucko, S., Kurimsk\u00fd, J., Doln\u00edk, B., Raj\u0148\u00e1k, M.<\/strong>, Kir\u00e1ly, J., Paulovi\u010dov\u00e1, K.<\/strong>; Dielectric Relaxation Spectroscopy of Modern Hybrid Insulation Systems, (2023) Acta Polytechnica Hungarica, 20 (11), pp. 29-48., DOI: 10.12700\/APH.20.11.2023.11.3, Q2, IF: 1.711<\/li>\n
      29. Oganesyan, K.B.<\/strong>, Dzier\u017c\u0119ga, K., Gevorgyan, A.H., Hnatic, M., Kopcansky, P.<\/strong>; Plasma local diagnostics by polarimetric method, (2023) Laser Physics Letters, 20 (5), art. no. 056002, DOI: 10.1088\/1612-202X\/accdd4, Q2, IF: 1.700<\/li>\n
      30. Oganesyan, K.B.<\/strong>, Akopian, A.A., Dzier\u017c\u0119ga, K., Gevorgyan, A.H., Hnatic, M., Kopcansky, P.<\/strong>; Suddenly switching-on interaction in the relativistic strophotron, (2023) Laser Physics Letters, 20 (3), art. no. 036001, DOI: 10.1088\/1612-202X\/acb43e, Q2, IF: 1.700<\/li>\n
      31. Garbovskiy, Y.A., Kop\u010dansk\u00fd, P.<\/strong>, Kovalchuk, O.V., Kovalchuk, T.M., Volokh, L.V.; Peculiarities of the effect of different types of SOR nanoimpurities on the value of ionic component of the electrical conductivity of the homeotropically aligned nematic liquid crystal 6 \u0421\u0412, (2023) Semiconductor Physics, Quantum Electronics and Optoelectronics, 26 (2), pp. 173-179., DOI: 10.15407\/spqeo26.02.173, Q3, IF: 0.583<\/li>\n
      32. Kosiachkin, Y., Bulavin, L.A., Kopcansky, P.<\/strong>; Development of Neutron Reflectometry of Surface Layers of Liquid Systems, (2023) Ukrainian Journal of Physics, 68 (4), pp. 259-265., DOI: 10.15407\/ujpe68.4.259, Q3, IF: 0.238<\/li>\n
      33. Zabashta, Yu.F., Kovalchuk, V.I., Kop\u010dansk\u00fd, P.<\/strong>, Safarik, I.,Lazarenko, M.M., Vergun, L.Yu., Bulavin, L.A.; Structural Features of Lamellar-Chain Hydrogels, (2023) Ukrainian Journal of Physics, 68(8), pp. 536-542., DOI: 10.15407\/ujpe68.8.536, Q3, IF: 0.238<\/li>\n
      34. \u0160\u00e1rpataky, M., Raj\u0148\u00e1k, M.<\/strong>, Zbojovsk\u00fd, J., Kurimsk\u00fd, J.; AC Breakdown Voltage Thermal Dependence in Magnetic Fluids, (2023) 2023 23rd International Scientific Conference on Electric Power Engineering, EPE 2023, DOI: 10.1109\/EPE58302.2023.10149231, Conference Paper<\/em><\/li>\n
      35. Vinnik, O., Tarasenko, R., Kotvytska, L., Zaku\u0165ansk\u00e1, K., Toma\u0161ovi\u010dov\u00e1, N.<\/strong>, Orend\u00e1\u010d, M., Orend\u00e1\u010dov\u00e1, A.;The study of lattice dynamics in dimerized quantum magnets with chain-like crystal structure, (2023) AIP Conference Proceedings, 2778, art. no. 040027. DOI: 10.1063\/5.0136218, Conference Paper<\/em><\/li>\n
      36. Kotvytska, L., Tarasenko, R., Lyutakov, O., Erzina, M., Toma\u0161ovi\u010dov\u00e1, N.<\/strong>, Vinnik, O., Orend\u00e1\u010d, M., Orend\u00e1\u010dov\u00e1, A.; Physical properties of metal-organic zeolitic imidazolate frameworks, (2023) AIP Conference Proceedings, 2778, art. no. 040015. DOI: 10.1063\/5.0136197, Conference Paper<\/em><\/li>\n<\/ol>\n

        2022<\/strong><\/span><\/p>\n

          \n
        1. Grayston, A., Zhang, Y., Garcia-Gabilondo, M., Arr\u00fae, M., Martin, A., Kopcansky, P., Timko, M., Kovac, J., Strbak, O., Castellote, L., Belloli, S., Moresco, R.M., Picchio, M., Roig, A., Rosell, A.; Endovascular administration of magnetized nanocarriers targeting brain delivery after stroke, (2022), Journal of Cerebral Blood Flow and Metabolism<\/em>, 42 (2), pp. 237-252, DOI: 10.1177\/0271678X211028816Q1, IF: 6.960<\/li>\n
        2. Karpets, M., Rajnak, M., Petrenko, V., Gapon, I., Avdeev, M., Bulavin, L., Timko, M., Kopcansk\u00fd, P.; Electric field-induced assembly of magnetic nanoparticles from dielectric ferrofluids on planar interface, (2022), Journal of Molecular Liquids<\/em>, 362, art. no. 119773., DOI: 10.1016\/j.molliq.2022.119773, Q1, IF: 6.633<\/li>\n
        3. Cimbala, R., Havran, P., Kir\u00e1ly, J., Raj\u0148\u00e1k, M., Kurimsk\u00fd, J., \u0160\u00e1rpataky, M., Doln\u00edk, B., Paulovi\u010dov\u00e1, K.; Dielectric response of a hybrid nanofluid containing fullerene C60<\/sub> and iron oxide nanoparticles, (2022), Journal of Molecular Liquids<\/em>, 359, art. no. 119338., DOI: 10.1016\/j.molliq.2022.119338, Q1, IF: 6.633<\/li>\n
        4. Kovalchuk, O.V., Kovalchuk, T.M., Toma\u0161ovi\u010dov\u00e1, N., Timko, M., Zakutanska, K., Miakota, D., Kop\u010dansk\u00fd, P., Shevchuk, O.F., Garbovskiy, Y.; Dielectric and electrical properties of nematic liquid crystals 6CB doped with iron oxide nanoparticles. The combined effect of nanodopant concentration and cell thickness, (2022), \u00a0Journal of Molecular Liquids<\/em>, 366, art. no. 120305, DOI: 10.1016\/j.molliq.2022.120305, Q1, IF: 6.633<\/li>\n
        5. Mirkovi\u0107, M., Milanovi\u0107, Z., Peri\u0107, M., Vranje\u0161-\u0110uri\u0107, S., Ognjanovi\u0107, M., Anti\u0107, B., Kuraica, M., Krsti\u0107, I., Kubovcikova, M., Antal, I., Sobotova, R., Zavisova, V., Jurikova, A., Fabian, M., Koneracka, M.; Design and preparation of proline, tryptophan and poly-L-lysine functionalized magnetic nanoparticles and their radiolabeling with 131<\/sup>I and 177<\/sup>Lu for potential theranostic use, (2022), International Journal of Pharmaceutics<\/em>, 628, art. no. 122288, DOI: 10.1016\/j.ijpharm.2022.122288, Q1, IF: 6.51<\/li>\n
        6. Streckova, M., Petrus, O., Guboova, A., Orinakova, R., Girman, V., Bera, C., Batkova, M., Balaz, M., Shepa, J., Dusza, J.; Nanoarchitectonics of binary transition metal phosphides embedded in carbon fibers as a bifunctional electrocatalysts for electrolytic water splitting, (2022), Journal of Alloys and Compounds<\/em>, 923, art. no. 166472, DOI: 10.1016\/j.jallcom.2022.166472Q1, IF: 6.371<\/li>\n
        7. \u0160\u00e1rpataky, M., Kurimsk\u00fd, J., Raj\u0148\u00e1k, M., Paulovi\u010dov\u00e1, K., Krbal, M., Pelik\u00e1n, L.; Synthetic and natural ester-based nanofluids with fullerene and magnetite nanoparticles \u2013 An experimental AC breakdown voltage study, (2022), Journal of Molecular Liquids<\/em>, 368, art. no. 120802, DOI: 10.1016\/j.molliq.2022.120802, Q1, IF: 6.371<\/li>\n
        8. Hajdov\u00e1, P., Diko, P., Raj\u0148\u00e1k, M., Bednar\u010d\u00edk, J., Antal, V., Kuch\u00e1rov\u00e1, V., Zmorayov\u00e1, K., Radu\u0161ovsk\u00e1, M.; The influence of CeO2<\/sub> addition on microstructure and superconducting properties of GdBCO-Ag single grain bulk superconductors, (2022), Journal of Alloys and Compounds<\/em>, 889, art. no. 161697, DOI: 10.1016\/j.jallcom.2021.161697Q1, IF: 6.371<\/li>\n
        9. Gombos, J., Balejcikova, L., Kopcansky, P., Batkova, M., Siposova, K., Kovac, J., Zolochevska, K., Safarik, I., Lokajova, A., Garamus. V.M., Dobrota, D., Strbak, O.; Destruction of Lysozyme Amyloid Fibrils Induced by Magnetoferritin and Reconstructed Ferritin, (2022), International Journal of Molecular Sciences<\/em>, 23(22), 13926; DOI: 10.3390\/ijms232213926, Q1, IF: 6.208<\/li>\n
        10. Bury, P., Veveri\u010d\u00edk, M., \u010cernobila, F., Toma\u0161ovi\u010dov\u00e1, N., Zaku\u0165ansk\u00e1, K., Kop\u010dansk\u00fd, P., Timko, M., Jaro\u0161ov\u00e1, M.; Role of Magnetic Nanoparticles Size and Concentration on Structural Changes and Corresponding Magneto-Optical Behavior of Nematic Liquid Crystals, (2022), Nanomaterials<\/em>, 12 (14), art. no. 2463, DOI: 10.3390\/nano12142463Q1, IF: 5.719<\/li>\n
        11. J\u00f3zefczak, A., Opieli\u0144ski, K.J., Bielas, R., Pruchnicki, P., Bu\u0142kowski, M., J\u0119drzak, A., \u0160afa\u0159\u00edk, I., Kop\u010dansk\u00fd, P.; Ultrasound transmission tomography-guided heating with nanoparticles, (2022), Measurement: Journal of the International Measurement Confederation<\/em>, 197, art. no. 111345, DOI: 10.1016\/j.measurement.2022.111345Q1, IF: 5.131<\/li>\n
        12. Molcan, M., Skumiel, A., Timko, M., Safarik, I., Zolochevska, K., Kopcansky, P.; Tuning of Magnetic Hyperthermia Response in the Systems Containing Magnetosomes, (2022) Molecules<\/em>, 27 (17), art. no. 5605., DOI: 10.3390\/molecules27175605, Q1, IF: 4.927<\/li>\n
        13. Skumiel, A., Kopcansky, P., Timko, M., Molcan, M., Paulovicova, K., Wojciechowski, R.; The influence of a rotating magnetic field on the thermal effect in magnetic fluid, (2022) International Journal of Thermal Sciences<\/em>, 171, art. no. 107258., DOI: 10.1016\/j.ijthermalsci.2021.107258, Q1, IF: 4.779<\/li>\n
        14. Pogodin, A.I., Studenyak, I.P., Shender, I.A., Pop, M.M., Filep, M.J., Malakhovska, T.O., Kokhan, O.P., Kop\u010dansk\u00fd, P., Babuka, T.Y.; Crystal structure, ion transport and optical properties of new high-conductivity Ag7<\/sub>(Si1\u2212x<\/em><\/sub>Gex<\/sub><\/em>)S5<\/sub>I solid solutions, (2022), Journal of Materials Science<\/em>, 57 (12), pp. 6706-6722, DOI: 10.1007\/s10853-022-07059-1, Q1, IF: 4.682<\/li>\n
        15. Bir\u010d\u00e1kov\u00e1, Z., Milyutin, V., Koll\u00e1r, P., F\u00e1berov\u00e1, M., Bure\u0161, R., F\u00fczer, J., Neslu\u0161an, M., Vorobiov, S., Batkova, M.; Magnetic characteristics and core loss separation in magnetostrictive FeGa and FeGaRE (RE = Tb, Y) alloys, (2022), Intermetallics, 151, art. no. 107744, DOI: 10.1016\/j.intermet.2022.107744, Q1, IF: 4.075<\/li>\n
        16. Ayriyan, A., Ayryan, E.A., Egorov, A.A., Timko, M., Kop\u010dansk\u00fd, P.; Properties of liquid-crystal wave-guiding structures, (2022), Soft Matter<\/em>, 18, pp. 7441\u20137451, DOI: 10.1039\/d2sm00597b, Q1, IF: 4.046<\/li>\n
        17. G\u0119bara, P., Hasiak, M., Kovac, J., Rajnak, M.; Entalpy of Mixing, Microstructure, Structural, Thermomagnetic and Mechanical Properties of Binary Gd-Pb Alloys, (2022), Materials<\/em>, 15 (20), art. no. 7213, DOI: 10.3390\/ma15207213Q2, IF: 3.748<\/li>\n
        18. Tarasenko, R., Vinnik, O., Poto\u010d\u0148\u00e1k, I., Zaku\u0165ansk\u00e1, K., Kotvytska, L., Zele\u0148\u00e1k, V., Orend\u00e1\u010d, M., Toma\u0161ovi\u010dov\u00e1, N., Orend\u00e1\u010dov\u00e1, A.; The crystal structure, lattice dynamics and specific heat of M(C2<\/sub>H8<\/sub>N2<\/sub>)Cl2<\/sub> (M = Zn, Cu) metal-organic compounds, (2022), Materials Today Communications<\/em>, 33, art. no. 10422, DOI: 10.1016\/j.mtcomm.2022.104221, Q2, IF: 3.662<\/li>\n
        19. Rajnak, M., Kurimsky, J., Paulovicova, K., Franko, M., Dolnik, B., Cimbala, R., Timko, M., Kopcansky, P., Girman, V., Lisnichuk, M.; Dielectric and thermal performance of a C60<\/sub>-based nanofluid and a C60<\/sub>-loaded ferrofluid, (2022), Physics of Fluids<\/em>, 34, 107106, DOI: 10.1063\/5.0117899, Q1, IF: 3.521<\/li>\n
        20. Havran, P., Cimbala, R., Kir\u00e1ly, J., Raj\u0148\u00e1k, M., Bucko, S., Kurimsk\u00fd, J., Doln\u00edk, B.; Frequency-Dependent Dielectric Spectroscopy of Insulating Nanofluids Based on GTL Oil during Accelerated Thermal Aging, (2022), Processes<\/em>, 10(11), 2405, DOI: 10.3390\/pr10112405, Q2, IF: 3.352<\/li>\n
        21. Raj\u0148\u00e1k, M., Franko, M., Paulovi\u010dov\u00e1, K., Karpets, M., Parekh, K., Upadhyay, R., Kurimsk\u00fd, J., Doln\u00edk, B., Cimbala, R., Havran, P., Timko, M., Kop\u010dansk\u00fd, P.; Effect of ferrofluid magnetization on transformer temperature rise, (2022), Journal of Physics D: Applied Physics<\/em>, 55 (34), art. no. 345002., DOI: 10.1088\/1361-6463\/ac7425, Q1. IF: 3.207<\/li>\n
        22. Molcan, M., Safarik, I., Prochazkova, J., Kopcansky, P., Timko, M., Skumiel, A.; The impact of alternating and rotating regimes on the heating characteristics of magnetic bacterial cellulose structure, (2022) Journal of Magnetism and Magnetic Materials<\/em>, 563, 170015, ISSN 0304-8853., DOI: 10.1016\/j.jmmm.2022.170015, Q2, IF: 3.097<\/li>\n
        23. Bielas, R., Jameel, B., Skumiel, A., Timko, M., Kop\u010dansk\u00fd, P., J\u00f3zefczak, A.; Magnetic pickering emulsions heated in a rotating magnetic field, (2022), Journal of Magnetism and Magnetic Materials<\/em>, 563, art. no. 169946, DOI: 10.1016\/j.jmmm.2022.169946, Q2, IF: 3.097<\/li>\n
        24. Mihalik, M., Zentkov\u00e1, M., Maia, A., Vilarinho, R., Almeida, A., Agostinho Moreira, J., Posp\u00ed\u0161il, J., Uhl\u00ed\u0159ov\u00e1, K.; Magnetic properties of TbMn98<\/sub>Fe0.02<\/sub>O3<\/sub> single crystal, (2022), Journal of Magnetism and Magnetic Materials<\/em>, 549, art. no. 168986, DOI: 10.1016\/j.jmmm.2021.168986, Q2, IF: 3.097<\/li>\n
        25. Zentkov\u00e1, M., Kovalik, M., Mihalik, M., Csach, K., Gamzatov, A.G., Aliev, A.M., I\u013ekovi\u010d, S., Fitta, M., Perovic, M.; Magnetocaloric effect in La70<\/sub>Ag0.25<\/sub>MnO3+\u03b4<\/em><\/sub> magnetic nanoparticles, (2022), Journal of Magnetism and Magnetic Materials<\/em>, 549, art. no. 169002, DOI: 10.1016\/j.jmmm.2021.169002, Q2, IF: 3.097<\/li>\n
        26. Mihalik, M., Posp\u00ed\u0161il, J., Mihalik, M.; Magnetization reversal in NdMn8<\/sub>Fe0.2<\/sub>O3<\/sub> single crystal, (2022), Journal of Magnetism and Magnetic Materials<\/em>, 541, art. no. 168531, DOI: 10.1016\/j.jmmm.2021.168531, Q2, IF: 3.097<\/li>\n
        27. Vargov\u00e1, H., Stre\u010dka, J., Toma\u0161ovi\u010dov\u00e1, N.; Effect of an uniaxial single-ion anisotropy on the quantum and thermal entanglement of a mixed spin-(1\/2, S<\/em>) Heisenberg dimer, (2022), Journal of Magnetism and Magnetic Materials<\/em>, 546, art. no. 168799, DOI: 10.1016\/j.jmmm.2021.168799Q2, IF: 3.097<\/li>\n
        28. Strbak, O., Hnilicova, P., Gombos, J., Lokajova, A., Kopcansky, P; Magnetotactic Bacteria: From Evolution to Biomineralization and Biomedical Applications, (2022), Minerals<\/em>, 12(11), 1403; DOI: 10.3390\/min12111403Q2, IF: 2.818<\/li>\n
        29. Pogodin, A.I., Pop, M.M., Shender, I.O., Studenyak, I.P., Filep, M.J., Malakhovska, T.O., Kokhan, O.P., Babuka, T.Y., Stercho, I.P., Rubish, V.M., Kop\u010dansk\u00fd, P.; Effect of structural site disorder on the optical properties of Ag6+x<\/em><\/sub>(P1\u2212x<\/em><\/sub>Gex<\/sub><\/em>)S5<\/sub>I solid solutions, (2022), Journal of Materials Science: Materials in Electronics<\/em>, 33 (27), pp. 21874-21889, DOI: 10.1007\/s10854-022-08974-4, Q2, IF: 2.779<\/li>\n
        30. Ritter, C., Vilarinho, R., Moreira, J.A., Mihalik, M., Mihalik, M., Savvin, S.; The magnetic structure of DyFeO3<\/sub> revisited: Fe spin reorientation and Dy incommensurate magnetic order, (2022), Journal of Physics Condensed Matter, 34 (26), art. no. 265801, DOI: 10.1088\/1361-648X\/ac6787, Q2, IF: 2.745<\/li>\n
        31. Oliveira An\u00edcio Costa, I.M., Batkov\u00e1, M., Batko, I., Benabou, A., Mesplont, C., Vogt, J.-B.; The Influence of Microstructure on the Electromagnetic Behavior of Carbon Steel Wires, (2022), Crystals, 12 (5), art. no. 576, DOI: 10.3390\/cryst12050576, Q2, IF: 2.670<\/li>\n
        32. Pospiskova, K., Safarik, I.; Textile-Bound Copper Silicate as a New Peroxidase-Like Nanozyme for Organic Dye Decolorization, (2022), Chemical Engineering and Technology, 45 (6), pp. 1207-1210, DOI: 10.1002\/ceat.202000538, Q2, IF: 2.215<\/li>\n
        33. Stelmakova, M., Streckova, M., Orinakova, R., Guboova, A., Balaz, M., Girman, V., Mudra, E., Bera, C., Batkova, M.; Effect of heat treatment on the morphology of carbon fibers doped with Co2<\/sub>p nanoparticles, (2022), Chemical Papers<\/em>, 76 (2), pp. 855-867, DOI: 10.1007\/s11696-021-01897-0Q2, IF: 2.146 26<\/li>\n
        34. Oganesyan, K.B., Dzierz\u0229ga, K., Kopcansky, P., Gevorgyan, A.H., Timko, M.; Polarimetric method of plasma diagnostics, (2022), Laser Physics Letters<\/em>, 19 (9), art. no. 096001, DOI: 10.1088\/1612-202X\/ac7f38Q2, IF: 1.704<\/li>\n
        35. Oganesyan, K.B., Hnatic, M., Kopcansky, P.; An electron wave packet in the relativistic strophotron FEL, (2022), Laser Physics Letters<\/em>, 19 (1), art. no. 016001, DOI: 10.1088\/1612-202X\/ac3eebQ2, IF: 1.704<\/li>\n
        36. Nikoli\u0107, V.N., Rajnak, M., Mariano, J.F.M.L., Lazarov, N.D.; Magnetic Hysteresis Loops Revisited: Step Closer to Understand the Role of Exterior Angles, (2022), Journal of Superconductivity and Novel Magnetism<\/em>, 35 (5), pp. 1353-1373, DOI: 10.1007\/s10948-021-06118-z, Q3, IF: 1.675<\/li>\n
        37. Nebola, I.I., Katanytsia, A.F., Shkyrta, I.M., Pal, Y.O., Studenyak, I.P., Timko, M., Kop\u010dansk\u00fd, P.; Comparison of features arising in phonon spectra of crystals belonging to the argyrodite family for various combinations of orbits filled with Ag (Cu) atoms, (2022), Semiconductor Physics, Quantum Electronics and Optoelectronics<\/em>, 25 (1), pp. 043-048, DOI: 10.15407\/spqeo25.01.043Q4, IF: 0.583<\/li>\n
        38. Pogodin, A.I., Shender, I.O., Filep, M.J., Kokhan, O.P., Symkanych, O.I., Malakhovska, T.O., Suslikov, L.M., Kop\u010dansk\u00fd, P.; Grain size effect on electrical properties of Ag6<\/sub>PS5<\/sub>I-based ceramic materials, (2022), Semiconductor Physics, Quantum Electronics & Optoelectronics<\/em>, 25, (3), pp. 294-302, DOI: 10.15407\/spqeo25.03.294Q4, IF: 0.583<\/li>\n<\/ol>\n

          2021<\/strong><\/span><\/p>\n

            \n
          1. Birefringence dispersion of 6CHBT liquid crystal determined in VIS-NIR spectral range<\/strong>; Norbert Tarj\u00e1nyi, Marek Veveri\u010d\u00edk , Daniel K\u00e1\u010dik , Milan Timko, Peter Kop\u010dansk\u00fd, Applied Surface Science <\/strong>542 (2021) 148525, https:\/\/doi.org\/10.1016\/j.apsusc.2020.148525<\/a>, IF 6.612, <\/strong>Q1<\/strong><\/li>\n
          2. Electrical discharges in ferrofluids based on mineral oil and novelgas-to-liquid oil<\/strong>; Juraj Kurimsky, Michal Rajnak, Roman Cimbala, Katarina Paulovicova, Zbigniew Rozynek, Peter Kopcansky, Milan Timko, Journal of Molecular Liquids<\/strong> 325 (2021) 115244, https:\/\/doi.org\/10.1016\/j.molliq.2020.115244<\/a>, IF 5.854, Q1<\/strong><\/li>\n
          3. Controllability of ferrofluids\u2019 dielectric spectrum by means of external electric forces<\/strong>; Michal Rajnak, Bystrik Dolnik, Jakub Krempasky, Roman Cimbala, Kinnari Parekh, Ramesh Upadhyay, Katarina Paulovicova, Peter Kopcansky and Milan Timko, Journal of Physics D: Applied Physics<\/strong>, 54 (2021) 035303 (11pp), https:\/\/doi.org\/10.1088\/1361-6463\/abbeb6<\/a>, IF 3.541, Q1<\/strong><\/li>\n
          4. Magnetic Liquid Switching Using Rodlike Ferronematic 6CHBT Liquid Crystal Mixture Depending on the Diffraction Patterns<\/strong>; Rawa K. Ibrahim, Aseel I.Mahmood, Veronika Gdovinova, Peter Kopcansky, Iraqi Journal of Science,<\/strong> 2021, Vol. 62, No. 2, pp: 465-474, DOI: 10.24996\/ijs.2021.62.2.12, IF 0.433, Q4 <\/strong><\/li>\n
          5. Crystal structure and electrical properties of Ag6PS5I single crystal<\/strong>; I.P. Studenyak, A.I. Pogodin, M.J. Filep, O.P. Kokhan O.I. Symkanych M. Timko, P. Kop\u010dansk\u00fd, Semiconductor Physics<\/strong>, Quantum Electronics & Optoelectronics<\/strong>, 2021. V. 24, No 1. P. 26-33, https:\/\/doi.org\/10.15407\/spqeo24.01.26<\/a>, IF 0.565, Q3<\/strong><\/li>\n
          6. Influence of X7GeS5I (X = Ag, Cu) Superionic Nanoparticles on Structural Changes in Nematic Liquid Crystal<\/strong>; Peter Bury , Marek Veveri\u010d\u00edk, Peter Kopcansk\u00fd , Milan Timko , Ihor P. Studenyak and Artem I. Pogodin, Crystals 2021<\/strong>, 11, 413., https:\/\/doi.org\/10.3390\/cryst11040413<\/a>, IF 2.604, Q2 <\/strong><\/li>\n
          7. Tear fluid biomarkers in major depressive disorder: Potential of spectral methods in biomarker discovery<\/strong>; Krist\u00edna Krajc\u00edkova , Erika Semanc\u00edkova , Katar\u00edna Zakutanska , Daria Kondrakhova , Jana Maslankova , Marek Stupak , Ivan Talian , Natalia Tomasovicova, Tatiana Kimakova, Vladim\u00edr Komanick\u00fd , Katar\u00edna Dubayova , Dagmar Breznoscakova , Eva Palovac, Juraj Semanc\u00edk , Vladim\u00edra Tomeckova , Journal of Psychiatric Research<\/strong> 138 (2021) 75\u201382, https:\/\/doi.org\/10.1016\/j.jpsychires.2021.03.038<\/a>, IF 3.745, Q1<\/strong><\/li>\n
          8. Ferromagnetic and antiferromagnetic liquid crystal suspensions:Experiment and theory<\/strong>; Sergii Burylov, Danil Petrov, Veronika Lackov\u00e1, Katar\u00edna Zakutansk\u00e1, Natalia Burylova, Alexey Voroshilova, Vyacheslav Skosara, Filippo Agrestid, Peter Kop\u010dansk\u00fd, Nat\u00e1liaToma\u0161ovi\u010dov\u00e1, Journal of Molecular Liquids<\/strong>, MOLLIQ-114467; No of Pages 13, https:\/\/doi.org\/10.1016\/j.molliq.2020.114467<\/a>, IF 5.077, Q1<\/strong><\/li>\n
          9. Orientational self-assembly of nanoparticles innematic droplets<\/strong>; Natalia Tomasovicova, Marianna Batkova, Ivan Batko,Veronika Lackova,Vlasta Zavisova, Peter Kopcansky, Jan Jadzyn, Peter Salamoncand Tibor Toth-Katona, Nanoscale Advances<\/strong>, 2021,3, 2777\u20132781, DOI: 10.1039\/d1na00089f, IF 4.384, Q1<\/strong><\/li>\n
          10. Cotton Textile\/Iron Oxide Nanozyme Composites with Peroxidase-like Activity: Preparation, Characterization, and Application<\/strong>; Ivo Safarik, Jitka Prochazkova, Martin A. Schroer,Vasil M. Garamus, Peter Kopcansky,Milan Timko, Michal Rajnak, Maksym Karpets, Oleksandr I. Ivankov, Mikhail V. Avdeev, Viktor I. Petrenko,Leonid Bulavin, and Kristyna Pospiskova, ACS Appl. Mater. Interfaces <\/strong>2021, 13, 23627\u221223637, https:\/\/doi.org\/10.1021\/acsami.1c02154<\/a>, IF 8.758<\/strong>, Q1<\/strong><\/li>\n
          11. Fr\u00e9ederisksz Transitions in 6CB Based Ferronematics\u2014Effect ofMagnetic Nanoparticles Size and Concentration<\/strong>; Katar\u00edna Zakutansk\u00e1, Danil Petrov, Peter Kopcansk\u00fd, Dorota Weg\u0142owska and Nat\u00e1lia Toma\u0161ovicov\u00e1, Materials <\/strong>2021,14, 3096. https:\/\/doi.org\/10.3390\/ma14113096<\/a>, IF 3.057, Q2<\/strong><\/li>\n
          12. Influence of magnetic nanoparticles on dielectric properties of Shell oil transformer oil<\/strong>; O.V. Kovalchuk, O.B. Nesterenko, V.Yo. Kotovskyi, I.P. Studenyak, T.M. Kovalchuk,K.Paulovi\u010dov\u00e1,M.Timko,P. Kop\u010dansk\u00fd, K. Parekh, R.V. Upadhyay, Semiconductor Physics, Quantum Electronics & Optoelectronics<\/strong>, 2021. V. 24, No2. P. 154-159. https:\/\/doi.org\/10.3390\/ma14113096<\/a>, IF 0.565, Q3\/Q4 <\/strong><\/li>\n
          13. Scalable production of magnetic fluorescent cellulose 3 microparticles<\/strong>; Kristyna Pospiskova, Gerhard J. Mohr, Jitka Prochazkova, Milan Timko, Michal Rajnak, Katarina Paulovicova, Peter Kopcansky, Giorgia Giovannini, Luciano F. Boesel, Ivo Safarik, Cellulose<\/strong>, strany \u010d\u00edslo https:\/\/doi.org\/10.1007\/s10570-021-04018-y<\/li>\n
          14. Characterization and their anti-amyloid activity to insulin amyloid aggregation<\/strong>; Z. Bednarikova, I. Antal, M. Kubovcikova, M. Koneracka, V. Girman, V. Zavisova, Z. Gazova: Modified polymer nanospheres, Journal of Magnetism and Magnetic Materials<\/strong>, 521 (2021) 167527, https:\/\/doi.org\/10.1016\/j.jmmm.2020.167527<\/a>, IF 2.717, Q2<\/li>\n
          15. Differences in surface chemistry of iron oxide nanoparticles result in different routes of internalization<\/strong>; B. Svitkova, V. Zavisova, V. Nemethova, M. Koneracka, M. Kretova, F. Razga, M. Ursinyova and A. Gabelova, Beilstein J. Nanotechnol.<\/strong>, 2021, 12, 270\u2013281, https:\/\/doi.org\/10.3762\/bjnano.12.22<\/a>, IF 2.612, Q1<\/li>\n
          16. Targeting of carbonic anhydrase IX-positive cancer cells by glycine-coated superparamagnetic nanoparticles<\/strong>; I. Antal, M. Koneracka, M. Kubovcikova, V. Zavisova, A. Jurikova, I. Khmara, M. Omastova, M. Micusik, M. Barathova, L. Jelenska, I. Kajanova, M. Zatovicova, S. Pastorekova, Colloids and Surfaces B: Biointerfaces<\/strong>, 205 (2021) 111893, https:\/\/doi.org\/10.1016\/j.colsurfb.2021.111893<\/a>, IF 4.389, Q1<\/li>\n<\/ol>\n","protected":false},"excerpt":{"rendered":"

            2025 Lazarenko, M.M., Zabashta, Y.F., Cherevko, K.V., Sobchuk, A.O., Alekseev, O.M., Yablochkova, K.S., Alekseev, S.A., Dinzhos, R.V., Koseva, N.S., Petrenko, V.I., Kop\u010dansk\u00fd, P., Bulavin, L.A.;…<\/p>\n","protected":false},"author":1,"featured_media":0,"parent":300,"menu_order":15,"comment_status":"closed","ping_status":"closed","template":"","meta":{"footnotes":""},"_links":{"self":[{"href":"https:\/\/websrv.saske.sk\/uef\/en\/wp-json\/wp\/v2\/pages\/502"}],"collection":[{"href":"https:\/\/websrv.saske.sk\/uef\/en\/wp-json\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/websrv.saske.sk\/uef\/en\/wp-json\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/websrv.saske.sk\/uef\/en\/wp-json\/wp\/v2\/users\/1"}],"replies":[{"embeddable":true,"href":"https:\/\/websrv.saske.sk\/uef\/en\/wp-json\/wp\/v2\/comments?post=502"}],"version-history":[{"count":23,"href":"https:\/\/websrv.saske.sk\/uef\/en\/wp-json\/wp\/v2\/pages\/502\/revisions"}],"predecessor-version":[{"id":3807,"href":"https:\/\/websrv.saske.sk\/uef\/en\/wp-json\/wp\/v2\/pages\/502\/revisions\/3807"}],"up":[{"embeddable":true,"href":"https:\/\/websrv.saske.sk\/uef\/en\/wp-json\/wp\/v2\/pages\/300"}],"wp:attachment":[{"href":"https:\/\/websrv.saske.sk\/uef\/en\/wp-json\/wp\/v2\/media?parent=502"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}