- 2025
Patrnčiak, M., Vidiš, M., Staňo, Ľ., Shpetnyy, I., Roch, T., Grančič, B., Satrapinskyy, L., Ďurina, P., Mikula, M., and Plecenik, T.: Highly sensitive hydrogen gas sensor based on a capacitor-like Pt/TiO2/Pt structure with large-scale nanoporous top electrode, Inter. J. Hydrogen Energy 99 (2025) 137-145.
Chiang, T.-L., Hong, M.-C., Huang, S.-R., Chiou, B.-C., Lin, C.-S., Cheng, Y.-H., Dehghan, M., Ščepka, T., Horský, M., Švec, P., Patrnčiak, M., Plecenik, T., Carnoy, M., Parfeniukas, K., Plakhotnyuk, M., Borie, B., Hudec, B., and Hou, T.-H.: Direct atomic layer processing TiO2 RRAM gas sensor for real-time all-RRAM intelligent gas perception. In: IEEE Inter. Electron Devices Meeting (IEDM). San Francisco 2025. IEEE, 2025, p. 1-3.
- 2024
Patrnčiak, M., Stano, Ľ., Shpetnyy, I., Vidiš, M., Moško, M., Roch, T., Gregor, M., and Plecenik, T.: Enhancement of the gasistor device by separation of the gas sensing and the memristive cells. In: Eurosensors XXXVI. Book of Abstracts 2024.
- 2023
Plecenik, T., Vidiš, M., Patrnčiak, M., Moško, M., Satrapinskyy, L., Roch, T., Ďurina, P., and Plecenik, A.: Combining gas sensing and resistive switching: toward chemiresistive gas sensors with intrinsic memory. In: Nanomaterials: Applications & Properties: Book of Abstracts 2023, art. no. #NN-0626.
Patrnčiak, M., Vidiš, M., Moško, M., Plecenik, A., Satrapinskyy, L., Roch, T., Ďurina, P., and Plecenik T.: Gas sensitivity analysis of the gas-triggered resistive switch – gasistor. In: SMS 2023 / NanoMed 2023 / EGF 2023 / Sensors 2023 Joint Conf.: Book of Abstracts 2023.
Vidiš, M., Patrnčiak, M., Moško, M., Plecenik, A., Satrapinskyy, L., Roch, T., Ďurina, P., and Plecenik T.: Gas-triggered resistive switching and chemiresistive gas sensor with intrinsic memristive memory, Sensors Actuators B 389 (2023) 133878.
Hudec, B., Ščepka, T., Horský, M., Nádaždy, P., Vetrova, I., Predanocy, M., Nemec, P., Andok, R., Patrnčiak, M., and Plecenik T.: Hydrogen sensing characteristics of TiO2 thin films grown by atomic layer depositon using TTIP precursor with H2O vs. O3 reactants. In: Nanomater.: Appl. & Properties: Book of Abstracts 2023, art. no. #NN-0838.
Vidiš, M., Patrnčiak, M., Moško, M., Plecenik, A., Satrapinskyy, L., Roch, T., Ďurina, P., and Plecenik T.: Influence of the hydrogen gas concentration on the resistive switching in the Pt/TiO2/Pt memristor. In: Nanomaterials: Applications & Properties: Book of Abstracts 2023.
Patrnčiak, M., Staňo, Ľ., Vidiš, M., Satrapinskyy, L., Roch, T., Ďurina, P., and Plecenik T.: Response characteristics of hydrogen gas sensor based on Pt-TiO2-Pt sandwich structure with nanoporous top electrode. In: Nanomater.: Applications & Properties: Book of Abstracts 2023, art. no. #NN-0627.
- 2022
Patrnčiak, M., Plecenik, T., Grančič, B., Ďurina, P., Roch ,T., and Satrapinskyy, L.: Hydrogen gas sensor with capacitator-like arrangement and nanoporous top electrode. In: Proc. 26th Conf. Slovak Phys. 2022. ISBN 978-80-89855-19-3.
Patrnčiak, M., Plecenik, T., Grančič, B., Ďurina, P., Roch, T., Satrapinskyy, L., and Vidiš M.: Metal oxide semiconductor gas sensor with built-in memory and nanoporous top electrode. In: Proc. 12th Solid State Surfaces Interfaces: Extended Abstract Books 2022. ISBN 978-80-223-5494-3.
- 2021
Vidis, M., Shpetnyi, I.O., Roch, T., Satrapinskyy, L., Patrnciak, M., Plecenik, A., and Plecenik T.: Flexible hydrogen gas sensor based on a capacitor-like Pt/TiO2/Pt structure on polyimide foil, Inter. J. Hydrogen Energy 46 (2021) 19217-19228.