Contact
Intranet
SK
Field of scientific interest
The primary interest of the Department of Ceramics has been devoted to understanding the relations between microstructure and mechanical properties of oxide/non-oxide ceramic (nano-)composites and ceramic/metal (nano-)composites. Microstructural design of new types of composites (ceramic composites with high thermal and/or electrical conductivity, luminescent materials, corrosion and oxidation resistant materials, etc.) is a primary area of the department research. Ceramic materials combining the excellent mechanical properties along with the functional ones are in the centre of interest. The additional functional properties are designed by the grain boundary engineering using polymer derived precursors and/or by in situ modifications of the microstructures. This part of the research covers also the theoretical ab-initio approaches of engineering/functional properties design and explanation. Nevertheless, one branch of the research is oriented towards design of new types of refractories containing the non-oxide ceramic phases. This part of research is tightly bounded to the collaboration with the industry.
- Head of department: doc. Ing. Miroslav Hnatko, PhD.
International and National Projects
| Development of new compositionally-complex ceramics for extreme applications | |
| Vývoj nových keramických materiálov komplexného zloženia pre extrémne aplikácie | |
| Programme: | APVV-21-0402 |
| Principal investigator from IIC: | Ing. Peter Tatarko, PhD. |
| Duration: | 01/2022-12/2026 |
| Development of new joining methods for high entropy ceramics | |
| Vývoj nových metód spájania vysoko-entropických keramických materiálov | |
| Programme: | APVV-SK-CZ-RD-21-0089 |
| Project coordinator | Ing. Peter Tatarko, PhD. |
| Partner | Institute of Physics of Materials of the Czech Academy of Sciences, Brno, Czechia |
| Duration: | 07/2022-06/2025 |
| Porous ceramic anodes for novel sodium-ion batteries | |
| Pórovité keramické anódy pre sodíkové batérie novej generácie | |
| Programme: | VEGA 2/0167/22 |
| Principal investigator from IIC: | doc. Ing. Lenčéš Zoltán PhD. |
| Duration: | 01/2022-12/2024 |
| The in-situ formation of bioactive functionally graded silicon nitride by field assisted sintering | |
| In-situ tvorba bioaktívneho funkčne gradientného nitridu kremičitého počas spekania v elektrickom poli | |
| Programme: | VEGA 2/0161/22 |
| Principal investigator from IIC: | Mgr. Monika Tatarková, PhD. |
| Duration: | 01/2022-12/2024 |
| SIMBA – SODIUM-ION AND SODIUM METAL BATTERIES FOR EFFICIENT AND SUSTAINABLE NEXT-GENERATION ENERGY STORAGE | |
| Programme: | Horizont 2020, Grant agreement ID: 963542 |
| Principal investigator: | Technische Universitat Darmstadt, Germany |
| Principal investigator from IIC: | doc. Ing. Lenčéš Zoltán PhD. |
| Partners: | Sweden (Uppsala Universitet, Altris AB), UK (The University of Brimingham, The University of Warwick, Johnson Matthey PLC), Germany (Karlsruher Institut Fuer Technologie, Fraunhofer-Gesellschaft), France (Commissariat à l´énergie atomique et aux énergies alternatives, SAFT, TES RECUPYL), Norway (IFE, Institutt for energiteknikk, ELKEM AS), Ukraine (YUNASKO UA), Netherlands (Uniresearch BV) |
| Duration: | 01/2021-06/2024 |
| Nanostructured, functionally graded, and bioinspired 3D Ti-based implants | |
| Nanoštrukturované, funkčne navrstvené a bio-inšpirované 3D iplantáty na báze titánu | |
| Programme: | APVV-20-0322 |
| Principal investigator from IIC: | doc. Ing. Miroslav Hnatko PhD. |
| Duration: | 07/2021 – 06/2025 |
| Electromagnetic shielding properties of functionally graded layered SiC graphene and SiC-carbon nanotubes composites | |
| Elektromagnetické tienenie funkčne gradientných vrstevnatých kompozitov na báze SiC s prídavkom grafénu a uhlíkových nanorúrok | |
| Programme: | VEGA 2/0007/21 |
| Principal investigator from IIC: | Ing. Ondrej Hanzel, PhD. |
| Duration: | 01/2021-06/2024 |
| Carbon-Silicon based composite anodes for Li-ion batteries | |
| Anódy pre Li-iónové batérie na báze uhlík-kremíkových kompozitov | |
| Programme: | APVV-19-0461 |
| Project coordinator | CEMEA |
| Principal investigator from IIC: | doc. Ing. Lenčéš Zoltán PhD. |
| Duration: | 07/2020 – 06/2024 |
| Development of functionally graded silicon nitride with improved bioactivity | |
| Vývoj bioaktívneho funkčne gradientného nitridu kremičitého | |
| Programme: | JRP SAV – TUBITAK 546676 |
| Project coordinator | Ing. Miroslav Hnatko, PhD. |
| Partner | |
| Duration: | 07/2020 – 06/2024 |
| New high-entropy ceramics for advanced application | |
| Nové vysoko-entropické keramické materiály pre pokročilé aplikácie | |
| Programme: | APVV-19-0497 |
| Project coordinator | Institute of Materials Research SAS |
| Principal investigator from IIC: | prof. RNDr. Pavol Šajgalík, DrSc. |
| Duration: | 07/2020 – 06/2024 |
| CeramCom – New Generation Ultra-High Temperature Ceramic Matrix Composites for Aerospace Industry | |
| Programme: | H2020-MSCA-IF-2017, Grant agreement: 798651 |
| Principal investigator IIC: | Ing. Tatarko Peter PhD. |
| Partner: | Central R&T, Airbus Defence and Space GmbH, Taufkirchen, Germany |
| Duration: | 06/2018-05/2020 |
- NEWSLETTER (May 2020) – summary of the project activities (DOWNLOAD report)
Selected Publications
KITYK, Anna** – PAVLÍK, Viliam – HNATKO, Miroslav. Exploring deep eutectic solvents for the electrochemical and chemical synthesis of photoand electrocatalysts for hydrogen evolution. In International Journal of Hydrogen Energy, 2023, vol. 48, iss. 100, pp. 39823-39853. (2022: 7.2 – IF, Q1 – JCR, 1.318 – SJR, Q1 – SJR). https://doi.org/10.1016/j.ijhydene.2023.07.158
KITYK, Anna** – PAVLÍK, Viliam – HNATKO, Miroslav. Green electropolishing using choline chloride-based deep eutectic solvents: A review. In Journal of Molecular Liquids, 2023, vol. 392, art no. 123519. (2022: 6 – IF, Q1 – JCR, 0.914 – SJR, Q1 – SJR, karentované – CCC). https://doi.org/10.1016/j.molliq.2023.123519
KITYK, Anna** – ŠVEC, Peter Jr. – ŠOLTÝS, Ján – PAVLÍK, Viliam – HNATKO, Miroslav. Deep inside of the mechanism of electrochemical surface etching of α + β Ti6Al4V alloy in room-temperature deep eutectic solvent Ethaline. In Journal of Molecular Liquids, 2023, vol. 375, no. 121316. (2022: 6 – IF, Q1 – JCR, 0.914 – SJR, Q1 – SJR, karentované – CCC). https://doi.org/10.1016/j.molliq.2023.121316
ŠIMKO, František** – LENČÉŠ, Zoltán – KIM, Young-Wook – NOSKO, Martin – KONTRÍK, Martin – KORENKO, Michal. High temperature corrosion resistance of electrically conductive nitrogen doped silicon carbide ceramics in molten fluorides. In Journal of the European Ceramic Society, 2023, vol. 43, p. 3931-3940. (2022: 5.7 – IF, Q1 – JCR, 1.257 – SJR, Q1 – SJR). https://doi.org/10.1016/j.jeurceramsoc.2023.03.001
NAUGHTON-DUSZOVÁ, Annamária** – ŠVEC, Peter Jr.** – KOVALČÍKOVÁ, Alexandra – SEDLÁK, Richard – TATARKO, Peter – HVIZDOŠ, Pavol – ŠAJGALÍK, Pavol – DUSZA, Ján. On the phase and grain boundaries in dual phase carbide/boride ceramics from micro to atomic level. In Journal of the European Ceramic Society, 2023, vol. 43, p. 6765-6773. (2022: 5.7 – IF, Q1 – JCR, 1.257 – SJR, Q1 – SJR). https://doi.org/10.1016/j.jeurceramsoc.2023.07.034
NAUGHTON-DUSZOVÁ, Annamária** – ĎAKOVÁ, Lenka – CSANÁDI, Tamás – KOVALČÍKOVÁ, Alexandra – KOMBAMUTHU, Vasanthakumar – ÜNSAL, Hakan – TATARKO, Peter – TATARKOVÁ, Monika – HVIZDOŠ, Pavol – ŠAJGALÍK, Pavol. Nanohardness and indentation fracture resistance of dual-phase high-entropy ceramic. In Ceramics International, 2023, vol. 49, p. 24239-24245. (2022: 5.2 – IF, Q1 – JCR, 0.918 – SJR, Q1 – SJR). https://doi.org/10.1016/j.ceramint.2022.12.027
HRUBOVČÁKOVÁ, Monika – CSANÁDI, Tamás – SEDLÁK, Richard** – KOVALČÍKOVÁ, Alexandra – SHEPA, Ivan – MÚDRA, Erika – SOPČÁK, Tibor – ÜNSAL, Hakan – TATARKO, Peter – ŠAJGALÍK, Pavol – DUSZA, Ján. The effect of SiC whiskers addition on the microstructure and mechanical properties of a (Hf-Ta-Zr-Nb-Ti)C-SiC composite. In Ceramics International, 2023, vol. 49, p. 24179-24186. (2022: 5.2 – IF, Q1 – JCR, 0.918 – SJR, Q1 – SJR).
BYSTRICKÝ, Roman** – ŠKRÁTEK, Martin – RUSNÁK, Jaroslav – PRECNER, Marián – ŤAPAJNA, Milan – ŠAJGALÍK, Pavol. Electrical and magnetic properties of silicon carbide composites with titanium and niobium carbide as sintering aids. In Ceramics International, 2023, vol. 49, p. 5319-5326. (2022: 5.2 – IF, Q1 – JCR, 0.918 – SJR, Q1 – SJR). https://doi.org/10.1016/j.ceramint.2022.10.055
XU, Jie – TATARKO, Peter – CHEN, Lianghao – SHAN, Xu – HUANG, Qing – ZHOU, Xiaobing**. High-strength SiC joints fabricated at a low-temperature of 1400◦C using a novel low activation filler of Praseodymium. In Journal of the American Ceramic Society, 2023, vol. 106, iss. 10, pp. 5679-5688. (2022: 3.9 – IF, Q1 – JCR, 0.852 – SJR, Q1 – SJR). Ihttps://doi.org/10.1111/jace.19229
MATOVIC, Branko** – ZAGORAC, Dejan – ZAGORAC, Jelena – BUTULIJA, Svetlana – ERČIC, Jelena – HANZEL, Ondrej – SEDLÁK, Richard – LISNICHUK, Maksym – TATARKO, Peter. Fabrication and characterization of high entropy pyrochlore ceramics. In Boletín de la sociedad Espaňola de cerámica y vidrio, 2023, vol. 62, p. 66-76. (2022: 3.4 – IF, Q1 – JCR, 0.465 – SJR, Q2 – SJR). https://doi.org/10.1016/j.bsecv.2021.11.002
SINGH, Meinam Annebushan** – SARMA, Deba Kumar – HANZEL, Ondrej – ŠAJGALÍK, Pavol – RAMKUMAR, Janakarajan. Characterization of surface topography during multi-pass WEDM of MWCNT alumina composites. In CIRP Journal of Manufacturing Science and Technology, 2023, vol. 41, pp. 338-349. (2022: 4.8 – IF, Q2 – JCR, 1.065 – SJR, Q1 – SJR). https://doi.org/10.1016/j.cirpj.2022.11.019
TEPLICKÝ, Tibor – GREGOROVÁ, Martina – KALAFUTOVÁ, Adriana – HANZEL, Ondrej – MATEAŠÍK, Anton – FILOVÁ, Barbora – ČUNDERLÍKOVÁ, Beata**. Characterization of collagen type I matrices for pathophysiologically relevant spatial cancer cell cultures. In Biophysical Chemistry, 2023, vol. 293, art.no. 106944-1-106944-12. (2022: 3.8 – IF, Q2 – JCR, 0.672 – SJR, Q2 – SJR). https://doi.org/10.1016/j.bpc.2022.106944
ŠKRÁTEK, Martin** – ČAPLOVIČOVÁ, M. – ČAPLOVIČ, L. – PETRISKOVÁ, Patrícia – ŠIMON, Erik – RAKOVSKÝ, E. – BILLIK, Peter. Ag2O nanocrystals prepared by mechanochemical decomposition of Ag7O8NO3. In Materials Letters, 2023, vol. 348, art. no. 134680. (2022: 3 – IF, Q2 – JCR, 0.623 – SJR, Q2 – SJR). ISSN 0167-577X. Dostupné na: https://doi.org/10.1016/j.matlet.2023.134680
NAUGHTON-DUSZOVÁ, Annamária** – MEDVEĎ, Dávid – ĎAKOVÁ, Lenka – KOVALČÍKOVÁ, Alexandra – ŠVEC, Peter Jr. – TATARKO, Peter – ÜNSAL, Hakan – HVIZDOŠ, Pavol – ŠAJGALÍK, Pavol – DUSZA, Ján. Highly wear resistant dual-phase (Ti-Zr-Nb-Hf-Ta)C/(Ti-Zr-Nb-Hf-Ta) B2 high-entropy ceramics. In Advances in Applied Ceramics, 2023, vol. 122, no. 3-4, p. 107-118. (2022: 2.2 – IF, Q2 – JCR, 0.45 – SJR, Q2 – SJR). https://doi.org/10.1080/17436753.2023.2238160
MEDVEĎ, Dávid** – IVOR, Michal – KOVALČÍKOVÁ, Alexandra – MÚDRA, Erika – CSANÁDI, Tamás – SEDLÁK, Richard – ÜNSAL, Hakan – TATARKO, Peter – TATARKOVÁ, Monika – ŠAJGALÍK, Pavol – DUSZA, Ján. Wear Behavior of (Mo-Nb-Ta-V-W)C high-entropy carbide. In International Journal of Applied Ceramic Technology, 2023, vol. 20, p. 224-235. (2022: 2.1 – IF, Q2 – JCR, 0.419 – SJR, Q2 – SJR). https://doi.org/10.1111/ijac.14111
KUCHERYAVAYA, Anastasia** – LENČÉŠ, Zoltán** – ŠAJGALÍK, Pavol – HARMUTH, Harald. Zirconium oxycarbides and oxycarbonitrides: A review. In International Journal of Applied Ceramic Technology, 2023, vol. 20, no. 2 p. 541-562. (2022: 2.1 – IF, Q2 – JCR, 0.419 – SJR, Q2 – SJR). https://doi.org/10.1111/ijac.14188
Cooperation
- Universität Karlsruhe, Institut für Keramik im Maschinenbau, Karlsruhe, Germany
- Technische Universität Darmstadt, Fachgebiet Disperse Feststoffe, Darmstadt, Germany
- Institute for Ceramic Technology, ISTEC, Faenza, Italy
- University of Trento, Materials Science Department, Trento, Italy
- National Institute for Advanced Industrial Science and Technology (AIST), Nagoya, Japan
- University of Leeds, Materials Science Department, Leeds, United Kingdom
- Austrian Research Center, Materials Science Division, Seibersdorf, Austria