RWP4 Multifunctional nanostructure materials and technologies deals with the research is the research and preparation of new multifunctional nanomaterials and their application in components and devices with high social-economic impact. Given its wide technical use, this research has a significant societal impact. These include materials for fuel cells and artificial leaf structures, holographic safety and imaging elements, applications of terahertz ellipsometry methods in the time domain using spin THz emitters for field modulation and plasmonic field enhancement, polymer and ceramic nanocomposite materials for applications in battery sources and biomedicine, and corrosion and abrasion resistant layers with antibacterial, photocatalytic and tribological properties.
RWP4 is divided into five parts:
- WP4/1 Solar Fuel Cells (Ing. Lukáš Halagačka, Ph.D., VSB - Technical University of Ostrava)
- WP4/2 Security Holography and Topological Photonic Elements (doc. Dr. Mgr. Kamil Postava, FMST VSB - Technical University of Ostrava)
- WP4/3 Terahertz Ellipsometry for Sensing and Advanced Materials Dynamics Studies (Ing. Martin Mičica, Ph.D., VSB - Technical University of Ostrava)
- WP4/4 Polymer and ceramic nanocomposite materials with specific properties (Ing. Karla Čech Barabaszová, Ph.D., CEET VSB - Technical University of Ostrava)
- RWP4/5 Preparation and Application of Corrosion and Wear Resistant Oxide Coatings (prof. Ing. Jana Seidlerová, CSc., CEET VSB - Technical University of Ostrava)
Leader RWP4:
prof. Michael Cada, Dalhousie University, Halifax, Canada
doc. Dr. Mgr. Kamil Postava, FMST VSB - Technical University of Ostrava