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Кавецький Тарас Степанович

  1. T.S. Kavetskyy, A.L. Stepanov. Effects of gamma-irradiation and ion implantation in chalcogenide glasses // In book: “Glass Nanocomposites: Synthesis, Properties and Applications” (B. Karmakar, K. Rademann, A.L. Stepanov, eds.), Elsevier Academic Press, 2016, Chapter 14, P.341-358 (д.а. 1.1, Scopus).
  2. T.S. Kavetskyy, O. Šauša, T. Petkova, V. Boev, P. Petkov, A.V. Kukhta, A.L. Stepanov. Doppler broadening of the annihilation line study of organic-inorganic hybrid ureasil-based composites // In book: NATO Science for Peace and Security Series – A: Chemistry and Biology, “Nanoscience Advances in CBRN Agents Detection, Information and Energy Security” (P. Petkov, D. Tsiulyanu, W. Kulisch, C. Popov, eds.), The Netherlands: Springer, 2015, Chapter 9, P.85-90 (д.а. 0.4, Scopus).
  3. S. Kavetskyy, J. Borc, Y.Y. Kukhazh, A.L. Stepanov. The influence of low dose ion-irradiation on the mechanical properties of PMMA probed by nanoindentation // In book: NATO Science for Peace and Security Series – A: Chemistry and Biology, “Nanoscience Advances in CBRN Agents Detection, Information and Energy Security” (P. Petkov, D. Tsiulyanu, W. Kulisch, C. Popov, eds.), The Netherlands: Springer, 2015, Chapter 7, P.65-71 (д.а. 0.4, Scopus).
  4. S. Kavetskyy, A.L. Stepanov. Fabrication of nanoporous silicon by ion implantation // In book: NATO Science for Peace and Security Series – A: Chemistry and Biology, “Nanoscience Advances in CBRN Agents Detection, Information and Energy Security” (P. Petkov, D. Tsiulyanu, W. Kulisch, C. Popov, eds.), The Netherlands: Springer, 2015, Chapter 4, P.35-50 (д.а. 0.9, Scopus);
  5. Kavetskyy, J. Nowak, J. Borc, J. Rusnák, O. Šauša, A.L. Stepanov. Carbonization in boron-ion-implanted polymethylmethacrylate as revealed from Raman spectroscopy and electrical measurements // Spectroscopy Letters, 2016, V.49, #1, P.5-10 (д.а. 0.4, impact factor 0.852, Scopus).
  6. L. Stepanov, V.I. Nuzhdin, V.F. Valeev, M.F. Galyautdinov, E.V. Nuzhdin, I.R. Safina, T.S. Kavetskyy. Structure and plasmonic properties of PMMA layers with ion-synthesized silver nanoparticles for optoelectronics // Intern. J. Appl. Fund. Res., 2015, #8, P.676-681 (д.а. 0.4, ВИНИТИ).
  7. A.L. Stepanov, V.I. Nuzhdin, V.F. Valeev, V.V. Vorobev, T.S. Kavetskyy, Y.N. Osin. Synthesis of porous silicon by ion implantation // Rev. Adv. Mater. Sci., 2015, V.40, P.155-164 (д.а. 0.6, impact factor 1.161, Scopus).
  8. Т. Кавецкий, В.И. Нуждин, В.Ф. Валеев, Ю.Н. Осин, А.Л. Степанов. Оптические свойства ZnO с наночастицами серебра, синтезированными методом ионной имплантации // Письма в ЖТФ, 2015, Т. 41, № 11, С. 48-55 (д.а. 0.5, impact factor 0.583, Scopus).
  9. T.S. Kavetskyy, V.I. Nuzhdin, V.F. Valeev, Y.N. Osin, A.L. Stepanov. Optical properties of the synthesized ZnO with ion implanted silver nanoparticles // Tech. Phys. Lett., 2015, V.41, #6, P.537-539 (д.а. 0.2, impact factor 0.583, Scopus).
  10. A.L. Stepanov, V.I. Nuzhdin, V.F. Valeev, T.S. Kavetskyy. Structure and plasmonic properties of PMMA layers with ion-implanted silver nanoparticles for diffraction grating sensors // Proceedings of VIII International Conference Plasma Physics and Plasma Technology (PPPT-8) (Minsk, Belarus, 14-18 September, 2015), V.1, P.220-223 (д.а. 0.2).
  11. S. Kavetskyy, A.L. Stepanov. Spectroscopic investigations of ion-induced processes in polymethylmethacrylate at low-energy boron-ion implantation // Proceedings of the XXII International Conference “Ion-Surface Interactions (ISI-2015)” (Moscow, Russia, 20-24 August, 2015), V.3, P.339-342 (д.а. 0.3).
  12. S. Kavetskyy, Y.Y. Kukhazh, J. Borc, A.L. Stepanov. Nanoindentation of boron-ion implanted polymethylmethacrylate up to 1100 nm indentation depth // Proceedings of the XXII International Conference “Ion-Surface Interactions (ISI-2015)” (Moscow, Russia, 20-24 August, 2015), V.2, P.132-135 (д.а. 0.3).
  13. T.S. Kavetskyy, S.Ya. Voloshanska, A.L. Stepanov. Nanovoids topology in Juniperus communis of Carpathian Region of Ukraine // Acta Carpathica 16. – 2014. – С. 79-85  (0.4 д.а.);
  14. Taras Kavetskyy, Svitlana Voloshanska, Tamara Petkova, Victor Boev, Plamen Petkov, Andrey Stepanov. Verification of spur reaction model in positron annihilation lifetime spectroscopy applied to organic media // Acta Carpathica 21. – 2014. – С. 127-132 (0.4 д.а.);
  15. Kavetskyy, J. Nowak, J. Borc, J. Rusnák, O. Šauša, A.L. Stepanov. Carbonization in boron-ion-implanted polymethylmethacrylate as revealed from Raman spectroscopy and electrical measurements // Spectroscopy Letters, 2016, V.49, #1, P.5-10 (д.а. 0.4, impact factor 0.852, Scopus).
  16. L. Stepanov, V.I. Nuzhdin, V.F. Valeev, M.F. Galyautdinov, E.V. Nuzhdin, I.R. Safina, T.S. Kavetskyy. Structure and plasmonic properties of PMMA layers with ion-synthesized silver nanoparticles for optoelectronics // Intern. J. Appl. Fund. Res., 2015, #8, P.676-681 (д.а. 0.4, ВИНИТИ).
  17. A.L. Stepanov, V.I. Nuzhdin, V.F. Valeev, V.V. Vorobev, T.S. Kavetskyy, Y.N. Osin. Synthesis of porous silicon by ion implantation // Rev. Adv. Mater. Sci., 2015, V.40, P.155-164 (д.а. 0.6, impact factor 1.161, Scopus).
  18. Т. Кавецкий, В.И. Нуждин, В.Ф. Валеев, Ю.Н. Осин, А.Л. Степанов. Оптические свойства ZnO с наночастицами серебра, синтезированными методом ионной имплантации // Письма в ЖТФ, 2015, Т. 41, № 11, С. 48-55 (д.а. 0.5, impact factor 0.583, Scopus).
  19. T.S. Kavetskyy, V.I. Nuzhdin, V.F. Valeev, Y.N. Osin, A.L. Stepanov. Optical properties of the synthesized ZnO with ion implanted silver nanoparticles // Tech. Phys. Lett., 2015, V.41, #6, P.537-539 (д.а. 0.2, impact factor 0.583, Scopus).
  20. T.S. Kavetskyy, A.L. Stepanov. Effects of gamma-irradiation and ion implantation in chalcogenide glasses // In book: “Glass Nanocomposites: Synthesis, Properties and Applications” (B. Karmakar, K. Rademann, A.L. Stepanov, eds.), Elsevier Academic Press, 2016, Chapter 14, P.341-358 (д.а. 1.1, Scopus).
  21. T.S. Kavetskyy, O. Šauša, T. Petkova, V. Boev, P. Petkov, A.V. Kukhta, A.L. Stepanov. Doppler broadening of the annihilation line study of organic-inorganic hybrid ureasil-based composites // In book: NATO Science for Peace and Security Series – A: Chemistry and Biology, “Nanoscience Advances in CBRN Agents Detection, Information and Energy Security” (P. Petkov, D. Tsiulyanu, W. Kulisch, C. Popov, eds.), The Netherlands: Springer, 2015, Chapter 9, P.85-90 (д.а. 0.4, Scopus).
  22. S. Kavetskyy, J. Borc, Y.Y. Kukhazh, A.L. Stepanov. The influence of low dose ion-irradiation on the mechanical properties of PMMA probed by nanoindentation // In book: NATO Science for Peace and Security Series – A: Chemistry and Biology, “Nanoscience Advances in CBRN Agents Detection, Information and Energy Security” (P. Petkov, D. Tsiulyanu, W. Kulisch, C. Popov, eds.), The Netherlands: Springer, 2015, Chapter 7, P.65-71 (д.а. 0.4, Scopus).
  23. S. Kavetskyy, A.L. Stepanov. Fabrication of nanoporous silicon by ion implantation // In book: NATO Science for Peace and Security Series – A: Chemistry and Biology, “Nanoscience Advances in CBRN Agents Detection, Information and Energy Security” (P. Petkov, D. Tsiulyanu, W. Kulisch, C. Popov, eds.), The Netherlands: Springer, 2015, Chapter 4, P.35-50 (д.а. 0.9, Scopus).
  24. T. Kavetskyy, J. Nowak, J. Borc, J. Rusnák, O. Šauša, A.L. Stepanov Carbonization in boron-ion-implanted polymethylmethacrylate as revealed from Raman spectroscopy and electrical measurements Spectroscopy Letters, 2016 V.49, #1,P.5-10д.а. 0.4impact factor 0.852 Scopus.
  25. L. Stepanov, V.I. Nuzhdin, V.F. Valeev, V.V. Vorobev, T.S. Kavetskyy, Y.N. Osin Synthesis of porous silicon by ion implantation Reviews on Advanced Materials Science, 2015 V.40, P.155-164 д.а. 0.6impact factor 1.161 Scopus.
  26. Т.С. Кавецкий, В.И. Нуждин, В.Ф. Валеев, Ю.Н. Осин, А.Л. Степанов Оптические свойства ZnO с наночастицами серебра, синтезирован-ными методом ионной имплантации Письма в Журнал технической физики, 2015 том 41, вып. 11,
  27. С. 48-55 д.а. 0.5 T.S. Kavetskyy, V.I. Nuzhdin, V.F. Valeev, Y.N. Osin,
  28. L. Stepanov impact factor 0.583 Scopus Optical properties of the synthesized ZnO with ion implanted silver nanoparticles Technical Physics Letters, 2015 V.41, #6, P.537-539 д.а. 0.2 impact factor  0.583 Scopus.
  29. S. Kavetskyy, A.L. Stepanov. Carbon nanostructures, nanopores and metal nanoparticles in advanced optoelectronic materials fabricated by low-energy ion implantation // Abstracts of IV International Meeting “Clusters and Nanostructured Materials (CNM-4’2015)” (Uzhgorod, Ukraine, 12-16 October, 2015), P.43 (д.а. 0.1).
  30. S. Kavetskyy, V.M. Tsmots, J. Nowak, A. Kuczumow, A. Kinomura, Y. Kobayashi, R. Suzuki, H.F.M. Mohamed, O. Šauša, V. Nuzhdin, V. Valeev, A.L. Stepanov. Comprehensive study of carbonization in B+-implanted PMMA: A correlation between slow positron beam and Raman spectroscopy results // Abstracts of 17th International Conference on Positron Annihilation (ICPA-17) (Wuhan, China, 20-25 September, 2015), P.45 (д.а. 0.1).
  31. Kavetskyy, J. Nowak, J. Borc, J. Rusnák, O. Šauša, A.L. Stepanov. Raman observation of carbon nanoclusters in boron-ion implanted polymethylmethacrylate // Abstracts of International Research and Practice Conference: Nanotechnology and Nanomaterials (NANO-2015) (Lviv, Ukraine, 26-29 August, 2015), P.282 (д.а. 0.1).
  32. S. Kavetskyy, J. Nowak, A. Sozańska, M. Trzcinski, A. Marek, A.V. Kukhta, Y.G. Galyametdinov, A.L. Stepanov. Vibrational properties of boron-ion implanted polymethylmethacrylate // Abstracts of 8th International Conference on Advanced Vibrational Spectroscopy (ICAVS8) (Vienna, Austria, 12-17 July, 2015), P.632-633 (д.а. 0.1).
  33. S. Kavetskyy, Y.Y. Kukhazh, J. Borc, A.L. Stepanov. Nanoindentation study of boron-ion implanted polymethylmethacrylate with ultra nano hardness tester: Methodological aspects // Physics and Technology of Thin Films and Nanosystems / Materials of XV International Conference ICPTTFN-XV (Ivano-Frankivsk, Ukraine, 11-16 May, 2015), P.103 (д.а. 0.1).
  34. T.S. Kavetskyy, A.L. Stepanov. Ion-irradiation-induced carbon nanostructures in optoelectronic polymer materials // In book: “Radiation Effects in Materials” (W.A. Monteiro, ed.), Rijeka: InTech, 2016, Chapter 11, P.287-308.  (1.38 д.а.)
  35. Voloshanska S., Kozar M., Kavetskyy T. Biological activity and nanostructural characterization of Juniperus communis and biomaterials on its basis: A short // Acta Carpathica 23 – 2015. – Р. 87 – 98. (0,92 д.а.)
  36. Kavetskyy T., Khalilov R., Nasibova A., Serezhenkov V., Voloshanska S. EPR spectroscopy study of Juniperus communis of Carpathian region of Ukraine // Acta Carpathica 24 – 2015. – С. 124 – 127 (0,17 д.а.)
  37. M. Trzciński, T. Kavetskyy, G. Telbiz, A.L. Stepanov Optical characterization of nanocomposite polymer formed by ion implantation of boron Journal of Materials Science: Materials in Electronics0.5 д.а.impact factor 1.8 Scopus
  38. T. Kavetskyy, V. Tsmots,  J. Nowak, A. Kuczumow,A. Kinomura, Y. Kobayashi, R. Suzuki, H.F.M.Mohamed, O. Šauša, V. Nuzhdin, V. Valeev,
  39. L. Stepanov Comprehensive study of carbonization in B+-implanted PMMA: A correlation between slow positron beam and Raman spectroscopy results Materials Science Forum0.25 д.а.
  40. impact factor 0.6
  41. Kavetskyy T.S., Khalilov R.I., Nasibova A.N., Voloshanska S.Ya., Serezhenkov V.A., Šauša O., Kukhta A.V., Stepanov A.L. Magnetic nanoparticles in Juniperus Communis based biomaterials of Carpathian region for pharmaceutical and biomedical eco-markets / Стан природних ресурсів, перспективи їх збереження та відновлення: збірник матеріалів ІІІ Міжнародної науково-практичної конференції. – Дрогобич: Редакційно-видавничий відділ Дрогобицького державного педагогічного університету імені Івана Франка, 2016. – С. 88 – 89. (0,08 д.а.)
  42. Kavetskyy, R. Khalilov, A. Nasibova, S. Voloshanska, V. Serezhenkov, O. Šauša, A. Kukhta, A.L. Stepanov. Juniperus Communis based biomaterials with controlled nanoparameters for biomedical applications // Abstracts of 7th ICEEE-2016 International Conference “Global Environmental Changes and Environmental Health: Environmental and Economic Impact on Sustainable Development” (Budapest, Hungary, 17-19 November, 2016), 1 р. (0.04 д.а., Scopus)
  43. S. Kavetskyy, R.I. Khalilov, A.N. Nasibova, A.L. Stepanov. Radiation effects in materials: State-of-the-art and future outlook for glasses, polymers and biomaterials // Abstracts of International Conference “Mathematics. Computing. Education” (Pushchino, Russia, p. 23-28 January, 2017), http://www.mce.su/rus/presentations/p281995/. (0,05 д.а.).
  44. T.S. Kavetskyy, O. Šauša, A.L. Stepanov, S.Ya. Voloshanska, V.A. Serezhenkov, A.N. Nasibova, R.I. Khalilov. Recent progress in investigation of polymer materials and biomaterials using positron annihilation spectroscopy and other characterization techniques. Abstracts of International Scientific Conference “Implications of Urbanization and Industrialization for Biodiversity Conservation” (Ganja, Azerbaijan, 22-23 October, 2016), p. 139 – 141 (0,13 д.а.).
  45. T.S. Kavetskyy, R.I. Khalilov, A.N. Nasibova, S.Ya. Voloshanska, V.A. Serezhenkov, O. Šauša, A.V. Kukhta, A.L. Stepanov. Magnetic nanoparticles in Juniperus Communis based biomaterials of Carpathian region for pharmaceutical and biomedical eco-market // Abstracts of III International Scientific and Practical Conference “State of the Natural Resources and Prospects for Their Preservation and Restoration” (Drohobych, Ukraine, 12-14 October, 2016), P.88 – (0,08 д.а.)
  46. T.S. Kavetskyy, M.M. Kravtsiv, A.L. Stepanov. Silver-ion-implanted polymethylmethacry-late nanocomposite films: Perspectives for photonics and anti-bacteria applications // Abstracts of III International Scientific and Practical Conference “State of the Natural Resources and Prospects for Their Preservation and Restoration” (Drohobych, Ukraine, 12-14 October, 2016), P.86 – (0,08 д.а.)
  47. S. Kavetskyy, A.L. Stepanov. Carbonization and formation of metal nanoparticles processes in ion-implanted PMMA // Abstracts of International Research and Practice Conference: Nanotechnology and Nanomaterials (NANO-2016) (Lviv, Ukraine, 24-27 August, 2016), P.325. (0,04 д.а.)
  48. Kavetskyy, J. Nowak, A. Kuczumow, A.L. Stepanov. Optical spectroscopy study of ion-irradiation-induced processes in polymers: Case of polymethylmethacrylate (PMMA) // Abstracts of the 7th International Conference on Optical, Optoelectronic and Photonic Materials and Applications (ICOOPMA 2016) (Montréal, Canada, 12-17 June, 2016), P.176. (0,04 д.а.)
  49. Trzciński, T. Kavetskyy, A.L. Stepanov. Optical UV-Vis characterization of boron-ion-implanted polymethylmethacrylate // Abstracts of the 7th International Conference on Optical, Optoelectronic and Photonic Materials and Applications (ICOOPMA 2016) (Montréal, Canada, 12-17 June, 2016), P.96. (0,04 д.а.)
  50. Kavetskyy, K. Iida, Y. Nagashima, A. Kuczumow, O. Šauša, V. Nuzhdin, V. Valeev, A.L. Stepanov. High-dose boron and silver ion implantation into PMMA probed by slow positrons: Comparison between effects of carbonization and formation of metal nanoparticles // Abstracts of 14th International Workshop on Slow Positron Beam Techniques and Applications (SLOPOS 14) (Matsue, Japan, 22-27 May, 2016), P.61.
    (0,04 д.а.)
  51. S. Kavetskyy, A.L. Stepanov. Investigation of carbonization processes in ion-implanted PMMA: Recent progress and future outlook // Abstracts of IX International Conference on Topical Problems of Semiconductor Physics (Truskavets, Ukraine, 16-20 May, 2016), P.115 – 116. (0,08 д.а.)
  52. S. Kavetskyy, Y.Y. Kukhazh, J. Borc, A.L. Stepanov. Impact of boron-ion-irradiation on the mechanical properties of PMMA: Nanoindentation study in the 300-1100 nm depth // Abstracts of IX International Conference on Topical Problems of Semiconductor Physics (Truskavets, Ukraine, 16-20 May, 2016), P.82 – 83. (0,08 д.а.)
  53. S. Kavetskyy, A.L. Stepanov. Novel ion-implanted PMMA based glass nanocomposites. Abstracts of 24th International Congress on Glass (Shanghai, China, 7-11 April, 2016), P.O283. (0,04 д.а.)
  54. Trzciński, T.S. Kavetskyy, J. Nowak, A.L. Stepanov. Widma absorpcyjne polimeru PMMA implantowanego jonami boru // Materialy VIII Interdyscyplinarnei Konferencii Naukowei TYGIEL 2016 “Interdyscyplinarność kluczem do rozwoju” (Lublin, Polska, 12-13 Marca, 2016), S.337. (0,04 д.а.)
  55. Trzciński, T.S. Kavetskyy, A.L. Stepanov. Optical band gap and carbon clusters in PMMA nanocomposite films formed by ion implantation: Case of boron, helium, and xenon ions // In book: Advanced Technologies for Detection and Defence Against CBRN Agents (P. Petkov, D. Tsiulyanu, W. Kulisch, C. Popov, eds.), Dordrecht: Springer, in press.
    (0,2 др. арк.)
  56. Kavetskyy, H. Švajdlenková, Y. Kukhazh, O. Šauša, K. Čechová, I. Maťko, N. Hoivanovych, O. Dytso, T. Petkova, V. Boev, V. Ilcheva. Swelling behavior of organic-inorganic ureasil-based polymers // In book: Advanced Technologies for Detection and Defence Against CBRN Agents (P. Petkov, D. Tsiulyanu, W. Kulisch, C. Popov, eds.), Dordrecht: Springer, in press. (0,2 др. арк.)
  57. S. Kavetskyy, M.M. Kravtsiv, G.M. Telbiz, V.I. Nuzhdin, V.F. Valeev, A.L. Stepanov. Surface plasmon resonance band of ion-synthesized Ag nanoparticles in high-dose Ag:PMMA nanocomposite films // In book: Advanced Technologies for Detection and Defence Against CBRN Agents (P. Petkov, D. Tsiulyanu, W. Kulisch, C. Popov, eds.), Dordrecht: Springer, in press. (0,2 др. арк.)
  58. S. Kavetskyy, R.I. Khalilov, O.O. Voloshanska, L.M. Kropyvnytska, T.M. Beyba, V.A. Serezhenkov, A.N. Nasibova, A. Akbarzadeh, S.Ya. Voloshanska. Self-organized magnetic nanoparticles in plant systems: ESR detection and perspectives for biomedical applications // In book: Advanced Technologies for Detection and Defence Against CBRN Agents
    (P. Petkov, D. Tsiulyanu, W. Kulisch, C. Popov, eds.), Dordrecht: Springer, in press.
    (0,1 др. арк.)
  59. Trzciński, T.S. Kavetskyy, A.L. Stepanov. Optical band gap and carbon clusters in PMMA nanocomposite films formed by ion implantation: Case of boron, helium, and xenon ions // NATO Science for Peace and Security Series – A: Chemistry and Biology, in press (Scopus). (0,2 др. арк.)
  60. Kavetskyy, H. Švajdlenková, Y. Kukhazh, O. Šauša, K. Čechová, I. Maťko, N. Hoivanovych, O. Dytso, T. Petkova, V. Boev, V. Ilcheva. Swelling behavior of organic-inorganic ureasil-based polymers // NATO Science for Peace and Security Series – A: Chemistry and Biology, in press (Scopus). (0,2 др. арк.)
  61. S. Kavetskyy, M.M. Kravtsiv, G.M. Telbiz, V.I. Nuzhdin, V.F. Valeev, A.L. Stepanov. Surface plasmon resonance band of ion-synthesized Ag nanoparticles in high-dose Ag:PMMA nanocomposite films // NATO Science for Peace and Security Series – A: Chemistry and Biology, in press (Scopus). (0,2 др. арк.)
  62. S. Kavetskyy, R.I. Khalilov, O.O. Voloshanska, L.M. Kropyvnytska, T.M. Beyba, V.A. Serezhenkov, A.N. Nasibova, A. Akbarzadeh, S.Ya. Voloshanska. Self-organized magnetic nanoparticles in plant systems: ESR detection and perspectives for biomedical applications // NATO Science for Peace and Security Series – A: Chemistry and Biology, in press (Scopus). (0,1 др. арк.)
  63. Kavetskyy, O. Šauša, K. Čechová, H. Švajdlenková, I. Maťko, T. Petkova, V. Boev, V. Ilcheva, O. Smutok, Y. Kukhazh, M. Gonchar. Network properties of ureasil-based polymer matrixes for construction of amperometric biosensors as probed by PALS and swelling experiments // Acta Phys. Pol. A, in press (Scopus). (0,25 др. арк.)
  64. Samadishadlou, M. Farshbal, N. Annabi, T. Kavetskyy, R. Khalilov, S. Saghfi, A. Akbarzadeh, S. Mousavi. Magnetic carbon nanotubes: preparation, physical properties, and applications in biomedicine // Artif. Cells, Nanomed. Biotechnol., 2017, DOI: 10.1080/21691401.2017.1389746 (Scopus) (0,9 др. арк.)
  65. Kavetskyy, O. Smutok, M. Gonchar, O. Demkiv, H. Klepach, Y. Kukhazh, O. Šauša, T. Petkova, V. Boev, V. Ilcheva, P. Petkov, A.L. Stepanov. Laccase-containing ureasil-polymer composite as the sensing layer of an amperometric biosensor // J. Appl. Polym. Sci., 2017, V.134, P.45278(1-7) (Scopus). (0,2 др. арк.)
  66. Akbarzadeh, L. Kafshdooz, Z. Razban, A.D. Tbrizi, S. Rasoulpour, R. Khalilov, T. Kavetskyy, S. Saghfi, A.N. Nasibova, S. Kaamyabi, T. Kafshdooz. An overview application of silver nanoparticles in inhibition of herpes simplex virus // Artif. Cells, Nanomed. Biotechnol., 2017, DOI:10.1080/21691401.2017.1307208 (Scopus). (0,2 др. арк.)
  67. Trzciński, T. Kavetskyy, G. Telbiz, A.L. Stepanov. Optical characterization of nanocomposite polymer formed by ion implantation of boron // J. Mater. Sci.: Mater. Electron., 2017, V.28, P.7115-7120 (Scopus). (0,3 др. арк.)
  68. Kavetskyy, K. Iida, Y. Nagashima, A. Kuczumow, O. Šauša, V. Nuzhdin, V. Valeev, A.L. Stepanov. High-dose boron and silver ion implantation into PMMA probed by slow positrons: Effects of carbonization and formation of metal nanoparticles // J. Phys.: Conf. Ser., 2017, V.791, P.012028(1-4) (Scopus). (0,25 др. арк.)
  69. Ahmadkhani, A. Baghban, S. Mohammadpoor, R. Khalilov, A. Akbarzadeh, T. Kavetskyy, S. Saghfi, A.N. Nasibova. Synthesis and evaluation of a triblock copolymer/ZnO nanoparticles from poly(ε-caprolactone) and poly(acrylic acid) as a potential drug delivery carrier // Drug Res., 2017, V.67, P.1-11 (Scopus). (0,6 др. арк.)
  70. Trzciński, T.S. Kavetskyy, A.L. Stepanov. Optical band gap and carbon clusters in PMMA nanocomposite films formed by ion implantation: Case of boron, helium, and xenon ions // NATO Science for Peace and Security Series – A: Chemistry and Biology, in press (Scopus). (0,2 др. арк.)
  71. Kavetskyy, H. Švajdlenková, Y. Kukhazh, O. Šauša, K. Čechová, I. Maťko, N. Hoivanovych, O. Dytso, T. Petkova, V. Boev, V. Ilcheva. Swelling behavior of organic-inorganic ureasil-based polymers // NATO Science for Peace and Security Series – A: Chemistry and Biology, in press (Scopus). (0,2 др. арк.)
  72. S. Kavetskyy, M.M. Kravtsiv, G.M. Telbiz, V.I. Nuzhdin, V.F. Valeev, A.L. Stepanov. Surface plasmon resonance band of ion-synthesized Ag nanoparticles in high-dose Ag:PMMA nanocomposite films // NATO Science for Peace and Security Series – A: Chemistry and Biology, in press (Scopus). (0,2 др. арк.)
  73. S. Kavetskyy, R.I. Khalilov, O.O. Voloshanska, L.M. Kropyvnytska, T.M. Beyba, V.A. Serezhenkov, A.N. Nasibova, A. Akbarzadeh, S.Ya. Voloshanska. Self-organized magnetic nanoparticles in plant systems: ESR detection and perspectives for biomedical applications // NATO Science for Peace and Security Series – A: Chemistry and Biology, in press (Scopus). (0,1 др. арк.)
  74. Kavetskyy, O. Šauša, K. Čechová, H. Švajdlenková, I. Maťko, T. Petkova, V. Boev, V. Ilcheva, O. Smutok, Y. Kukhazh, M. Gonchar. Network properties of ureasil-based polymer matrixes for construction of amperometric biosensors as probed by PALS and swelling experiments // Acta Phys. Pol. A, in press (Scopus). (0,25 др. арк.)
  75. Samadishadlou, M. Farshbal, N. Annabi, T. Kavetskyy, R. Khalilov, S. Saghfi, A. Akbarzadeh, S. Mousavi. Magnetic carbon nanotubes: preparation, physical properties, and applications in biomedicine // Artif. Cells, Nanomed. Biotechnol., 2017, DOI: 10.1080/21691401.2017.1389746 (Scopus) (0,9 др. арк.)
  76. Kavetskyy, O. Smutok, M. Gonchar, O. Demkiv, H. Klepach, Y. Kukhazh, O. Šauša, T. Petkova, V. Boev, V. Ilcheva, P. Petkov, A.L. Stepanov. Laccase-containing ureasil-polymer composite as the sensing layer of an amperometric biosensor // J. Appl. Polym. Sci., 2017, V.134, P.45278(1-7) (Scopus). (0,2 др. арк.)
  77. Akbarzadeh, L. Kafshdooz, Z. Razban, A.D. Tbrizi, S. Rasoulpour, R. Khalilov, T. Kavetskyy, S. Saghfi, A.N. Nasibova, S. Kaamyabi, T. Kafshdooz. An overview application of silver nanoparticles in inhibition of herpes simplex virus // Artif. Cells, Nanomed. Biotechnol., 2017, DOI:10.1080/21691401.2017.1307208 (Scopus). (0,2 др. арк.)
  78. Trzciński, T. Kavetskyy, G. Telbiz, A.L. Stepanov. Optical characterization of nanocomposite polymer formed by ion implantation of boron // J. Mater. Sci.: Mater. Electron., 2017, V.28, P.7115-7120 (Scopus). (0,3 др. арк.)
  79. Kavetskyy, K. Iida, Y. Nagashima, A. Kuczumow, O. Šauša, V. Nuzhdin, V. Valeev, A.L. Stepanov. High-dose boron and silver ion implantation into PMMA probed by slow positrons: Effects of carbonization and formation of metal nanoparticles // J. Phys.: Conf. Ser., 2017, V.791, P.012028(1-4) (Scopus). (0,25 др. арк.)
  80. Ahmadkhani, A. Baghban, S. Mohammadpoor, R. Khalilov, A. Akbarzadeh, T. Kavetskyy, S. Saghfi, A.N. Nasibova. Synthesis and evaluation of a triblock copolymer/ZnO nanoparticles from poly(ε-caprolactone) and poly(acrylic acid) as a potential drug delivery carrier // Drug Res., 2017, V.67, P.1-11 (Scopus). (0,6 др. арк.)
  81. T. Kavetskyy, O. Šauša, K. Čechová, H. Švajdlen-ková,I. Maťko, T. Petkova, V. Boev, V. Ilcheva, O. Smutok, Y. Kukhazh, M. Gonchar Network properties of ureasil-based polymer matrixes for construction of amperometric biosensors as probed by PALS and swelling experiments Acta Phys. Pol. A (IF = 0.5)  2017, V.
  82. M. Samadi-shadlou, M. Farshbal, N. Annabi, T. Kavetskyy, R. Khalilov, S. Saghfi, A. Akbarzadeh, S. Mousavi Magnetic carbon nanotubes: preparation, physical properties, and applications in biomedicine Artif. Cells, Nanomed. Biotechnol. 2017,
  83. DOI:10.1080/21691401.2017.1389746 (IF = 6.0)
  84. T. Kavetskyy, O. Smutok, M. Gonchar, O. Demkiv, H. Klepach, Y. Kukhazh, O. Šauša, T.Petkova, V. Boev, V. Ilcheva, P. Petkov, A.L. Stepanov Laccase-containing ureasil-polymer composite as the sensing layer of an amperometric biosensor J. Appl. Polym. Sci. (IF = 2.0) 2017, V.134, P.45278(1-7)
    1. Akbarzadeh, L. Kafshdooz, Z. Razban, A.D. Tbrizi, S. Rasoulpour, R. Khalilov, T. Kavetskyy, S. Saghfi, A.N. Nasibova, S. Kaamyabi, T. Kafshdooz An overview application of silver nanoparticles in inhibition of herpes simplex virus Artif. Cells, Nanomed. Biotechnol.
  85. (IF = 6.0) 2017, DOI:10.1080/21691401.2017.1307208
  86. M. Trzciński,T. Kavetskyy, G. Telbiz, A.L. Stepanov Optical characterization of nanocomposite polymer formed by ion implantation of boron J. Mater. Sci.: Mater. Electron.(IF = 2.0) 2017, V.28, P.7115-7120
  87. L. Ahmad-khani, A. Baghban, S. Moham-madpoor, R. Khalilov, A. Akbarzadeh, T. Kavetskyy,
  88. S. Saghfi, A.N. Nasibova Synthesis and evaluation of a triblock copolymer/ZnO nanoparticles from poly(ε-caprolactone) and poly(acrylic acid) as a potential drug delivery carrier Drug Res.
  89. (IF = 2.0) 2017, V.67, P.1-11
  90. Kavetskyy, O. Smutok, M. Gonchar, O. Demkiv, H. Klepach, Y. Kukhazh, O. Šauša, T. Petkova, V. Boev, V. Ilcheva, P. Petkov, A.L. Stepanov. Ureasil-based polymer matrices as sensitive layers for construction of amperometric biosensors for monitoring the level of wastewater pollution // Abstracts of NATO Advanced Study Institute “Advanced Technologies for Detection and Defence Against CBRN Agents” (Sozopol, Bulgaria, 12-20 September, 2017), P. 5.2-2. (0,04 др. арк.)
  91. Kavetskyy, Y. Kukhazh, O. Šauša, K. Čechová, H. Švajdlenková, I. Maťko, T. Petkova, V. Boev, V. Ilcheva. Swelling behavior of organic-inorganic ureasil-based polymers // Abstracts of NATO Advanced Study Institute “Advanced Technologies for Detection and Defence Against CBRN Agents” (Sozopol, Bulgaria, 12-20 September, 2017), P. 4.5-9.
    (0,08 др. арк.)
  92. Kavetskyy, R. Khalilov, O. Voloshanska, V. Serezhenkov, A. Nasibova, A. Akbarzadeh, S. Voloshanska. Self-organized magnetic nanoparticles in plant systems: ESR detection and perspectives for biomedical applications // Abstracts of NATO Advanced Study Institute “Advanced Technologies for Detection and Defence Against CBRN Agents” (Sozopol, Bulgaria, 12-20 September, 2017), P. 4.3-4. (0,04 др. арк.)
  93. Trzciński, T.S. Kavetskyy, A.L. Stepanov. Optical band gap and carbon clusters in PMMA nanocomposite films formed by ion implantation: Case of boron, helium, and xenon ions // Abstracts of NATO Advanced Study Institute “Advanced Technologies for Detection and Defence Against CBRN Agents” (Sozopol, Bulgaria, 12-20 September, 2017), P. 4.1-3. (0,08 др. арк.)
  94. S. Kavetskyy, A.L. Stepanov. Positron annihilation spectroscopy as a powerful experimental platform of nanotechnology applied to polymer nanocomposites with ion-synthesized carbon nanostructures and metal nanoparticles // Abstracts of NATO Advanced Study Institute “Advanced Technologies for Detection and Defence Against CBRN Agents” (Sozopol, Bulgaria, 12-20 September, 2017), P. 3-8. (0,08 др. арк.)
  95. S. Kavetskyy, M.M. Kravtsiv, G.M. Telbiz, V.I. Nuzhdin, A.L. Stepanov. Surface plasmon resonance band of ion-synthesized Ag nanoparticles in high-dose Ag:PMMA nanocomposite films // Abstracts of NATO Advanced Study Institute “Advanced Technologies for Detection and Defence Against CBRN Agents” (Sozopol, Bulgaria, 12-20 September, 2017), P. 2.3-2. (0,08 др. арк.)
  96. S. Kavetskyy, K. Iida, Y. Nagashima, M. Elsayed, M.O. Liedke, N. Srinivasan, A. Wagner, R. Krause-Rehberg, O. Šauša, G. Telbiz, A.L. Stepanov. Slow positron beam spectroscopy study of PMMA nanocomposite films with ion-synthesized silver nanoparticles // Abstracts of International Workshop on Positron Studies of Defects 2017 (PSD-17) (Dresden, Germany, 3-8 September, 2017), P.71. (0,08 др. арк.)
  97. Kavetskyy, O. Šauša, K. Čechová, H. Švajdlenková, I. Maťko, T. Petkova, V. Boev, V. Ilcheva, O. Smutok, Y. Kukhazh, M. Gonchar. Network properties of ureasil-based polymer matrixes for construction of amperometric biosensors as probed by PALS and swelling experiments // Abstracts of 12th International Workshop on Positron and Positronium Chemistry (PPC12) (Lublin, Poland, 28 August – 1 September, 2017), P.O13. (0,07 др. арк.)
  98. S. Kavetskyy, A.L. Stepanov. Slow positron beam spectroscopy as unique experimental tool for understanding polymer nanocomposites with carbon nanostructures and metal nanoparticles formed by low-energy ion implantation // Programme of NATO Advanced Research Workshop “Detection of CBRN-Nanostructured Materials” (Kiev, Ukraine, 14-17 August, 2017), P.3. (0,08 др. арк.)
  99. T. Kavetskyy, Y. Kukhazh, M. Kravtsiv, K. Zubrytska, O. Mushynska, T. Beyba, А. Stepanov. SRIM simulation of low-energy ion bombardment into PMMA matrix // Materials of International Scientific and Technical Conference “Laser Technologies. Lasers and Their Application” (Truskavets, Ukraine, 7-9 June, 2017), P.151-153. (0,15 др. арк.)
  100. T. Kavetskyy, А. Stepanov. Ion-implanted polymer materials: State-of-the-art and future prospects // Materials of International Scientific and Technical Conference “Laser Technologies. Lasers and Their Application” (Truskavets, Ukraine, 7-9 June, 2017), P.142-144. (0,18 др. арк.)
  101. R. Khalilov, A. Nasibova, T. Kavetskyy. EPR signals in plant systems and their informative capacity for ecological research // Materials of International Scientific and Technical Conference “Laser Technologies. Lasers and Their Application” (Truskavets, Ukraine, 7-9 June, 2017), P.130-132. (0,18 др. арк.)
  102. I. Khalilov, А.N. Nasibova, T.S. Kavetskyy, I.Y. Fridunbayov, N.N. Nabiyev, Sh.J. Ramazanov, U.M. Qasimov. EPR signals in plant systems and their informative capacity for radioecological investigations // Abstracts of International Conference on Biological, Environmental Sciences Applications (Luxor, Egypt, 23-25 March, 2017), (Ref.282).
    (0,07 др. арк.)
  103. Kavetskyy, Y. Kukhazh, J. Borc, A.L. Stepanov. Nanoindentation of PMMA nanocomposites formed by boron-ion implantation // Abstracts of IV-th International Conference on Oxide and Non-Oxide Materials for Optoelectronics and Energy Applications (ICONMO-4) (Borovetz, Bulgaria, 16-19 March, 2017), P.27. (0,07 др. арк.)
  104. Kavetskyy, O. Smutok, M. Gonchar, O. Demkiv, H. Klepach, Y. Kukhazh, O. Sausa, T. Petkova, V. Boev, V. Ilcheva, P. Petkov, A.L. Stepanov. Urea-silicate composite with chalcogenide particles as a perspective polymer matrix for construction of amperometric biosensors // Abstracts of IV-th International Conference on Oxide and Non-Oxide Materials for Optoelectronics and Energy Applications (ICONMO-4) (Borovetz, Bulgaria, 16-19 March, 2017), P.26. (0,04 др. арк.)
  105. T. Kavetskyy, O. Sausa, A.L. Stepanov. Carbon nanostructures and metal nanoparticles in ion-implanted optoelectronic polymer materials: Possibilities of positron annihilation spectroscopy as a key technique // Abstracts of IV-th International Conference on Oxide and Non-Oxide Materials for Optoelectronics and Energy Applications (ICONMO-4) (Borovetz, Bulgaria, 16-19 March, 2017), P.16. (0,08 др. арк.)