Ing. Mykhailo VAIDULYCH
| 23. | "Nanoplasmonic sensing to study CO and oxygen adsorption and CO oxidation on size-selected Pt10 clusters", B. Demirdjian, M. Vaidulych, I. Ozerov, F. Bedu, Š. Vajda, C. R. Henry, Nanoscale (2024), DOI: 10.1039/d4nr02682a, Open Access, link |
| 22. | "Low-temperature selective oxidative dehydrogenation (ODH) of cyclohexene by titania-supported nanostructured Pd, Pt and Pt-Pd catalytic films", M. Vaidulych, Li-Ya Yeh, R. Hoehner, J. Jašík, S. A. Kadam, M. Vorochta, I. Khalakhan, J. Hagen, S. Vajda, Journal of Physical Chemistry C 128, 3180 (2024), DOI: 10.1021/acs.jpcc.3c07064, Open Access, link |
| 21. | "Cyclohexane Oxidative Dehydrogenation on Graphene-Oxide-Supported Cobalt Ferrite Nanohybrids: Effect of Dynamic Nature of Active Sites on Reaction Selectivity" S.A. Kadam, S. Sandoval, Z. Bastl, K. Simkovičová, L. Kvítek, J. Jašík, J.E. Olszówka, S. Valtera, M. Vaidulych, J. Morávková, P. Sazama, D. Kubička, A. Travert, J.A. van Bokhoven, A. Fortunelli, A. Kleibert, M. Kalbáč, and Š. Vajda, ACS Catal 13, 13484–13505 (2023), DOI: 10.1021/acscatal.3c02592, Open Access, link |
| 20. | "Oxidative dehydrogenation of cyclohexene on atomically precise subnanometer Cu4-nPdn (0≤n≤4) tetramer clusters: The effect of cluster composition and support on performance", J. Jašík, S. Valtera, M. Vaidulych, M. Bunian, Y. Lei, A. Halder, H. Tarábková, M. Jindra, L. Kavan, O. Frank, S. Bartling and Š. Vajda, Faraday Discuss. 242, 70-93 (2023), Advance Article, DOI: 10.1039/D2FD00108J, Open Access, link |
| 19. | “Atom by Atom Built Subnanometer Copper Cluster Catalyst for the Highly Selective Oxidative Dehydrogenation of Cyclohexene”, S. Valtera, J. Jasik, M. Vaidulych, J. E. Olszówka, M. Zlámalová, H. Tarábková, L. Kavan, and S. Vajda, J. Chem. Phys. 156, 114302 (2022), DOI: 10.1063/5.0065350, Open Access, link |
| 18. | "Convex vs Concave Surface Nano-curvature of Ta2O5 thin Films for Tailoring the Osteoblast Adhesion", M. Vaidulych, P. Pleskunov, J. Kratochvíl, H. Mašková, P. Kočová, D. Nikitin, J. Hanuš, O. Kylián, J. Štěrba, H. Biederman, A. Choukourov, Surface & Coatings Technology 393, 125805 (2020), link |
| 17. | "Nucleation and Growth of Magnetron-Sputtered Ag Nanoparticles as Witnessed by Time-Resolved Small Angle X-Ray Scattering", A. Shelemin, P. Pleskunov, J. Kousal, J. Drewes, J. Hanuš, S. Ali-Ogly, D. Nikitin, P. Solar, J. Kratochvíl, M. Vaidulych, M. Schwartzkopf, O. Kylián, O. Polonskyi, T. Strunskus, F. Faupel, S. V. Roth, H. Biederman, and A. Choukourov, , Part. Part. Syst. Charact. 37 (2), 1900436 (2020), link |
| 16. | "Effect of Magnetic Field on the Formation of Cu Nanoparticles During Magnetron Sputtering in the Gas Aggregation Cluster Source", M. Vaidulych, J. Hanuš, J. Kousal, S. Kadlec, A. Marek, I. Khalakhan, A. Shelemin, P. Solař, A. Choukourov, O. Kylián, H. Biederman, Plasma Process Polym. 16 (11), 1900133 (2019), DOI: 10.1002/ppap.201900133, link |
| 15. | "Wetting on a-C:H Coatings Decorated with Sub-micron Structures", A. Shelemin, D. Nikitin, P. Pleskunov, M. Vaidulych, R. Tafiichuk, A. Choukourov, P. Kúš, P. Solař, A. Kuzminova, O. Kylián, H. Biederman, Surface & Coatings Technology 367, 165–172 (2019), link |
| 14. | "Superwettable Antibacterial Textiles for Versatile Oil/water Separation", M. Vaidulych, A. Shelemin, J. Hanuš, I. Khalakhan, I. Krakovsky, P. Kočová, H. Mašková, J. Kratochvíl, P. Pleskunov, J. Štěrba, O. Kylián, A. Choukourov, H. Biederman, Plasma Process Polym. 16 (5), 1900003 (2019), DOI: 10.1002/ppap.201900003, link |
| 13. | "Magnetron-sputtered Copper Nanoparticles: Lost in Gas Aggregation and Found by In Situ X-ray Scattering", J. Kousal, A. Shelemin, M. Schwartzkopf, O. Polonskyi, J. Hanuš, P. Solař, M. Vaidulych, D. Nikitin, P. Pleskunov, Z. Krtous, T. Strunskus, F. Faupel, S. V. Roth, H. Biederman, A. Choukourov, Nanoscale, 2018, 10, 18275 |
| 12. | "Influence of Atmospheric Pressure Dielectric Barrier Discharge on Wettability and Drying of Poly(ether-ether-ketone) Foils", R. Štefaníková, T. Kretková, A. Kuzminova, J. Hanuš, M. Vaidulych, O. Kylián, H. Biederman, Polym. Degrad. Stab., 2018, 150, 114-121. |
| 11. | "Formation of Organosilicon Nanoparticles in a Gas Aggregation Source as Witnessed by In Situ Light Scattering", A. Shelemin, R. Perekrestov, M. Vaidulych, D. Nikitin, A. Choukourov, D. Slavinska, H. Biederman, NANOCON 2017 - Conference Proceedings, 2018, 937-941 |
| 10. | "Cycling Instabilities in a Gas Aggregation Cluster Source Used for Plasma Polymer Nanoparticle Fabrication", A. Shelemin, D. Nikitin, J. Kousal, M. Vaidulych, P. Pleskunov, A. Choukourov, D. Slavinska, H. Biederman, NANOCON 2017 - Conference Proceedings, 2018, 765-770 |
| 9. | "Production of Heterogeneous Copper-tungsten Particles", P. Solar, D. Nikitin, J. Hanus, O. Kylián, M. Vaidulych, M. Cieslar, H. Valentova, H. Biederman, NANOCON 2017 - Conference Proceedings, 2018, 16-20 |
| 8. | "Core@shell Cu/hydrocarbon Plasma Polymer Nanoparticles Prepared by Gas Aggregation Cluster Source Followed by In-flight Plasma Polymer Coating", O. Kylián, A. Kuzminova, M. Vaydulych, M. Cieslar, I. Khalakhan, J. Hanuš, A. Choukourov, D. Slavínská, H. Biederman, Plasma Process Pol., 2018, 15:e1700109 |
| 7. | "Fabrication of Ni@Ti Core-shell Nanoparticles by Modified Gas Aggregation Source", J. Hanuš, M. Vaidulych, O. Kylián, A. Choukourov, J. Kousal, I. Khalakhan, M. Cieslar, P. Solar, H. Biederman, J. Phys. D. Appl. Phys., 2017, 50, 475307 |
| 6. | "Deposition of Ag/a-C:H Nanocomposite Films with Ag Surface Enrichment", M. Vaidulych, J. Hanuš, T. Steinhartová, O. Kylián, A. Choukourov, J. Beranová, I. Khalakhan, H. Biederman, Plasma Process Pol., 2017, 14, e1600256, link |
| 5. | "Advances and Challenges in the Field of Plasma Polymer Nanoparticles", A. Choukourov, P. Pleskunov, D. Nikitin, V. Titov, A. Shelemin, M. Vaidulych, A. Kuzminova, P. Solar, J. Hanuš, J. Kousal, O. Kylián, D. Slavinska, H. Biederman, Beilstein J. Nanotechnol., 2017, 8, 2002-2014 |
| 4. | "Plasma Polymers: From thin Films to Nanocolumnar Coatings", O. Kylián, A. Shelemin, P. Solar, A. Choukourov, J. Hanus, M. Vaidulych, A. Kuzminova, H. Biederman, Thin Solid Films, 2017, 630, 86-91 |
| 3. | "RMS Roughness-independent Tuning of Surface Wettability by Tailoring Silver Nanoparticles with a Fluorocarbon Plasma Polymer", A. Choukourov, O. Kylián, M. Petr, M. Vaidulych, D. Nikitin, J. Hanuš, A. Artemenko, A. Shelemin, I. Gordeev, Z. Kolska, P. Solar, I. Khalakhan, A. Ryabov, J. Majek, D. Slavinska, H. Biederman, NANOSCALE, 2017, 9, 2616-2625 |
| 2. | "Surfaces with Roughness Gradient and Invariant Surface Chemistry Produced by Means of gas Aggregation Source and Magnetron Sputtering", M. Petr, O. Kylian, J. Hanus, A. Kuzminova, M. Vaidulych, I. Khalakhan, A. Choukourov, D. Slavinska, H. Biederman, Plasma Process Pol., 2016, 13, 663–671 |
| 1. | "Microphase-separated PE/ PEO Thin Films Prepared by Plasma-assisted Vapor Phase Deposition", A. Choukourov, I. Gordeev, J. Ponti, C. Uboldi, I. Melnichuk, M. Vaidulych, J. Kousal, D. Nikitin, L. Hanykova, I. Krakovsky, D. Slavinska, H. Biederman, ACS Appl. Mater. Interfaces, 2016, 8, 8201-8212 |
