Tomáš Plecenik, doc. RNDr., PhD.
Selected publications
The most relevant publications from the last 7 years.
Highly sensitive hydrogen gas sensor based on a capacitor-like Pt/TiO2/Pt structure with large-scale nanoporous top electrode, International Journal of Hydrogen Energy 99,137 – 14520 (2025)
Patrnčiak, M., Vidiš, M., Staňo, Ľ., Shpetnyy, I., Roch, T., Grančič, B., Satrapinskyy, L., Ďurina, P., Mikula, M., Plecenik, T.
A device with a complementary function to a gasistor, (2024) 3. summer school of condensed matter
Patrnčiak M., Stano Ľ., Spethnyy I., Plecenik T.
Blooming microflowers: Shaping TiO2 nanostructures via anodization in metal chloride-based electrolytes, (2024) Electrochimica Acta, 502, art. no. 144854
Zeng Y., Valappil L.T., Satrapinskyy L., Roch T., Plecenik T., Gregor M., Khan M.Z., Pavlovský J., Reli M., Motola M.
DOI: 10.1016/j.electacta.2024.144854
Enhancement of the gasistor device by separation of the gas sensing and the memristive cells, (2024) Eurosensors XXXVI Book of Abstracts.
Patrnčiak M., Stano Ľ., Spethnyy I., Vidiš M., Moško M., Roch T., Gregor M., Plecenik T.
Exploring next-generation X(NO3)Y (X = Na+, K+, Sr2+, Ag+; Y=1, 2) electrolytes for enhanced TiO2 nanotube hydrogen generation, (2024) International Journal of Hydrogen Energy
Berezenko V., Hanif M.B., Sihor M., Zeng Y., Edelmannová M.F., Reli M., Iftikhar H., Khan M.Z., Plecenik T., Gregor M., Roch T., Monfort O., Koci K., Motola M.
DOI: 10.1016/j.ijhydene.2024.02.295
Influence of the external magnetic field on structural characteristics of granular Co-Cu thin film alloys, (2024) Journal of Magnetism and Magnetic Materials, 606, art. no. 172327
Hrebynakha V., Plecenik T., Satrapinskyy L., Ruban A.I., Pak V.Y., Shkurdoda Y., Shvets U., Nakonechna I., Lyfar S., Vorobiov S., Komanicky V., Kozlova L., Kravets A., Shpetnyy I.
DOI: 10.1016/j.jmmm.2024.172327
Inhomogeneous resistivity of transparent superconductor films revealed by the van der Pauw technique. Metallofizika i Noveishie Tekhnologii, V. 46 (6), pp. 517–529, 2024
Shapovalov, A., Menesenko, D., Zhitlukhina E., Parra, A., Aliev, A., Shamaev, V., Gregor, M., Plecenik, T.
DOI: 10.15407/mfint.46.06.0517.
Observation and characterization of titanium-like nano-filament in TiO2 memristor using superconducting electrode(s) and Andreev spectroscopy (2024) Journal of Applied Physics, 136 (5), art. no. 054303
Moško M., Koscelanská M., Mošková A., Vidiš M., Volkov S., Gregor M., Poláčková M., Roch T., Grančič B., Satrapinskyy L., Kúš P., Plecenik A., Plecenik T.
DOI: 10.1063/5.0221209
Probing Intercalated Indium-Tin Oxide Films by Non-Local Resistance Measurements, IEEE Transactions on Applied Superconductivity, vol. 34, no. 3, pp. 1-4, May 2024, Art no. 3800104
Parra, A., Aliev, A., Belogolovskii, M., Zhitlukhina, E., Polackova, M., Gregor, M., Plecenik, T.
DOI: 10.1109/TASC.2023.3344559
Combining Gas Sensing and Resistive Switching: Toward Chemiresistive Gas Sensors with Intrinsic Memory, (2023) Nanomaterials: Applications & Properties: Book of Abstracts. art. no. #NN-0626
Plecenik T., Vidiš M., Patrnčiak M., Moško M., Satrapinskyy L., Roch T., Ďurina P., Plecenik A.
Competing length scales and 2D versus 3D dimensionality in relatively thick superconducting NbN films, (2023) Scientific Reports, 13 (1), art. no. 19450
Belogolovskii M., Poláčková M., Zhitlukhina E., Grančič B., Satrapinskyy L., Gregor M., Plecenik T.
DOI: 10.1038/s41598-023-46579-x
Critical current enhancement in a superconducting nanolayer proximitized to a weak-ferromagnetic film, (2023) Applied Nanoscience (Switzerland), 13 (7), pp. 4771 – 4777
Zhitlukhina E., Poláčková M., Volkov S., Grančič B., Gregor M., Plecenik T., Belogolovskii M., Seidel P., Plecenik A.
DOI: 10.1007/s13204-022-02614-3
Effect of Magnetic Field on the Morphology and Structural Characteristics of Cobalt-based Thin Film Systems as Sensitive Sensor Elements, (2023) Journal of Nano- and Electronic Physicsз, 15 (4), art. no. 04034
Shpetnyy I., Plecenik T., Shabelnyk Yu., Shkurdoda Yu., Shvets U., Nakonechna I., Vorobiov S., Kravets A.
DOI: 10.21272/jnep.15(4).04034
Gas sensitivity analysis of the gas-triggered resistive switch – gasistor, (2023) SMS 2023 / NanoMed 2023 / EGF 2023 / Sensors 2023 Joint Conferences: Book of Abstracts
Patrnčiak M., Vidiš M., Moško M., Plecenik A., Satrapinskyy, L., Roch T., Ďurina P., Plecenik T.
Gas-triggered resistive switching and chemiresistive gas sensor with intrinsic memristive memory, (2023) Sensors and Actuators B: Chemical, 389, art. no. 133878
Vidiš M., Patrnčiak M., Moško M., Plecenik A., Satrapinskyy L., Roch T., Ďurina P., Plecenik T.
DOI: 10.1016/j.snb.2023.133878
Hydrogen gas sensor with capacitator-like arrangement and nanoporous top electrode (2023) 2. summer school of condensed matter
Patrnčiak M., Plecenik T., Staňo Ľ., Grančič B., Ďurina P., Roch T., Satrapinskyy L.
Hydrogen Gas Sensor with Capacitor-Like Pt/TiO2/Pt Arrangement and Nanoporous Top Electrode, (2023) APCOM 2023: 28th international conference on Applied Physics of Condensed Matter
Patrnčiak M., Plecenik T., Staňo Ľ., Grančič B., Ďurina P., Roch T., Satrapinskyy L.,
Hydrogen Sensing Characteristics of TiO2 Thin Films Grown by Atomic Layer Depositon Using TTIP Precursor with H2O vs. O3 reactants, (2023) Nanomaterials: Applications & Properties: Book of Abstracts. art. no. #NN-0838
Hudec B., Ščepka T., Horský M., Nádaždy P., Vetrova I., Predanocy M., Nemec P., Andok R., Patrnčiak M., Plecenik T.
Influence of the Hydrogen Gas Concentration on the Resistive Switching in the Pt/TiO2/Pt Memristor, (2023) Nanomaterials: Applications & Properties: Book of Abstracts
Vidiš M., Patrnčiak M., Moško M., Plecenik A., Satrapinskyy, L., Roch T., Ďurina P., Plecenik T.
Point-Contact Spectroscopy of Thin Superconducting NbN Films, (2023) Journal of Nano- and Electronic Physics, 15 (5), art. no. 05001
Tarenkov V., Shapovalov A., Shamaev V., Poláčková M., Zhitlukhina E., Belogolovskii M., Gregor M., Plecenik T.
DOI: 10.21272/jnep.15(5).05001
Probing superconducting granularity using nonlocal four-probe measurements, (2023) European Physical Journal Plus, 138 (6), art. no. 486
Poláčková M., Zhitlukhina E., Belogolovskii M., Gregor M., Plecenik T., Seidel P.
DOI: 10.1140/epjp/s13360-023-04123-w
Response Characteristics of Hydrogen Gas Sensor Based On Pt-TiO2-Pt Sandwich Structure With Nanoporous Top Electrode, (2023) Nanomaterials: Applications & Properties: Book of Abstracts. art. no. #NN-0627
Patrnčiak M., Staňo Ľ., Vidiš M., Satrapinskyy L., Roch T., Ďurina P., Plecenik T.
Structural Analysis of Hard Coatings and Thin Films at Dep FMPI CU in Bratislava, Materials Structure in Chemistry, Biology, Physics and Technology, 2023, Vol. 29,no. 2, art. no. L9 (s. 98-99)
Roch, Tomáš; Grančič, Branislav; Mikula, Marián; Ďurina, Pavol; Gregor, Maroš; Plecenik, Tomáš; Satrapinskyy, Leonid
A method for large-area monolayer coverage of micro- and nanospheres on surfaces with low wettability using a cold atmospheric plasma and spin-coating, (2022) Materials Science in Semiconductor Processing, 141, art. no. 106405
Ďurina P., Plecenik T., Roch T., Medvecká V., Truchlý M., Grančič B., Zahoranová A., Plecenik A.
DOI: 10.1016/j.mssp.2021.106405
Above-gap differential conductance dips in superconducting point contacts, (2022) Applied Nanoscience (Switzerland), 12 (3), pp. 761 – 768
Volkov S., Gregor M., Plecenik T., Zhitlukhina E., Belogolovskii M., Plecenik A.
DOI: 10.1007/s13204-021-01734-6
Anodization of large area Ti: a versatile material for caffeine photodegradation and hydrogen production, (2022) Catalysis Science and Technology, 12 (16), pp. 5045 – 5052
Sihor M., Hanif M.B., Thirunavukkarasu G.K., Liapun V., Edelmannova M.F., Roch T., Satrapinskyy L., Plecenik T., Rauf S., Hensel K., Monfort O., Motola M.
DOI: 10.1039/d2cy00593j
Fluoride-free synthesis of anodic TiO2 nanotube layers: a promising environmentally friendly method for efficient photocatalysts, (2022) Nanoscale, 14 (32), pp. 11703 – 11709
Hanif M.B., Thirunavukkarasu G.K., Liapun V., Makarov H., Gregor M., Roch T., Plecenik T., Hensel K., Sihor M., Monfort O., Motola M.
DOI: 10.1039/d2nr03379h
Hydrogen Gas Sensor with Capacitator-Like Arrangement and Nanoporous Top Electrode, (2022) 26th Conference of Slovak physicists: proceedings. ISBN 978-80-89855-19-3
Patrnčiak M., Plecenik T., Grančič B., Ďurina P., Roch T., Satrapinskyy L.
Metal oxide semiconductor gas sensor with built-in memory and nanoporous top electrode, (2022) Proceedings of 12th Solid State Surfaces and Interfaces: Extended Abstract Books. ISBN 978-80-223-5494-3
Patrnčiak M., Plecenik T., Grančič B., Ďurina P., Roch T., Satrapinskyy L., Vidiš M.
Polovodičový detektor plynov so zvýšenou citlivosťou a jeho použitie, Úrad priemyselného vlastníctva Slovenskej republiky, Prihláška úžitkového vzoru, PUV50022-2022, 16.03.2022
Plecenik, Tomáš; Vidiš, Marek; Tomašec, Samuel; Krško, Ondrej; Truchlý, Martin; Ďurina, Pavol; Plecenik, Andrej
Flexible hydrogen gas sensor based on a capacitor-like Pt/TiO2/Pt structure on polyimide foil, (2021) International Journal of Hydrogen Energy, 46, pp. 19217-19228,
Vidis M., Shpetnyi I.O., Roch T., Satrapinskyy L., Patrnciak M., Plecenik A., Plecenik T.
DOI: 10.1016/j.ijhydene.2021.03.052
Preparation and photocatalytic activity of TiO2 nanotube arrays prepared on transparent spinel substrate, (2021) Ceramics International, 47 (9), pp. 12970 – 12980,
Petrisková P., Monfort O., Satrapinskyy L., Dobročka E., Plecenik T., Plesch G., Papšík R., Bermejo R., Lenčéš Z.
DOI: 10.1016/j.ceramint.2021.01.160
Electron–boson coupling in superconductors studied by a self-formed nanofilament device, (2020) Applied Nanoscience (Switzerland), 10 (8), pp. 2617 – 2625
Zhitlukhina E., Dvoranová M., Plecenik T., Gregor M., Belogolovskii M., Plecenik A.
DOI: 10.1007/s13204-019-01082-6
Influence of nanoscale TiO2 film thickness on gas sensing properties of capacitor-like Pt/TiO2/Pt sensing structure (2020) Applied Surface Science, 499, art. no. 143909
Li, Z., Haidry, A.A., Plecenik, T., Vidis, M., Grancic, B., Roch, T., Gregor, M., Durina, P., Yao, Z., Plecenik, A.
DOI: 10.1016/j.apsusc.2019.143909
Flexible gas sensor based on TiO2 thin layer with vertical electrodes configuration, (2019) Progress in applied surface, interface and thin film science 2019: extended abstract book. ISBN 978-80-223-4811-9
Shpetnyi I., Vidiš M., Patrnčiak M., Plecenik T., Gregor M., Plecenik A.
Gasistor: A memristor based gas-triggered switch and gas sensor with memory (2019) Applied Physics Letters, 115 (9), art. no. 093504
Vidiš, M., Plecenik, T., Moško, M., Tomašec, S., Roch, T., Satrapinskyy, L., Grančič, B., Plecenik, A.
DOI: 10.1063/1.5099685
Polovodičový detektor plynov s plynocitlivou vrstvou a jeho použitie, Úrad priemyselného vlastníctva Slovenskej republiky, Prihláška úžitkového vzoru, 50036-2019, 14.05.2019
Plecenik, Tomáš; Vidiš, Marek; Truchlý, Martin; Plecenik, Andrej; Krško, Ondrej; Grančič, Branislav; Ďurina, Pavol; Roch, Tomáš; Gregor, Maroš; Satrapinskyy, Leonid; Noskovič, Jaroslav
Remarkable Improvement in Hydrogen Sensing Characteristics with Pt/TiO2 Interface Control, (2019) ACS Sensors, 4 (11), pp. 2997 – 3006
Haidry A.A., Xie L., Wang Z., Zavabeti A., Li Z., Plecenik T., Gregor M., Roch T., Plecenik A.
DOI: 10.1021/acssensors.9b01537
Spôsob prípravy monovrstiev, najmä na ťažko zmáčavých povrchoch, systém na nanášanie monovrstiev, Úrad priemyselného vlastníctva Slovenskej republiky, Patentová prihláška, 50046-2019, 17.09.2019
Ďurina, Pavol; Plecenik, Tomáš; Medvecká, Veronika; Truchlý, Martin; Zahoranová, Anna; Plecenik, Andrej
Superconducting properties of very high quality NbN thin films grown by pulsed laser deposition, (2019) Journal of Electrical Engineering, 70 (7), pp. 89 – 94
Volkov S., Gregor M., Roch T., Satrapinskyy L., Grančič B., Fiantok T., Plecenik A.
DOI: 10.2478/jee-2019-0047
The effect of Nb doping on hydrogen gas sensing properties of capacitor-like Pt/Nb-TiO2/Pt hydrogen gas sensors, (2019) Journal of Alloys and Compounds, 806, pp. 1052 – 1059
Li Z., Yao Z., Haidry A.A., Plecenik T., Grancic B., Roch T., Gregor M., Plecenik A.
DOI: 10.1016/j.jallcom.2019.07.301
UV light-induced photocatalytic, antimicrobial, and antibiofilm performance of anodic TiO2 nanotube layers prepared on titanium mesh and Ti sputtered on silicon, (2019) Chemical Papers, 73 (5), pp. 1163 – 1172
Motola M., Dworniczek E., Satrapinskyy L., Chodaczek G., Grzesiak J., Gregor M., Plecenik T., Nowicka J., Plesch G.
DOI: 10.1007/s11696-018-0667-4