Department of Plasma Physics and Technology
Cooperations
We cooperate with companies, corporations, and research organizations through contract research and international projects. With industrial partners, we develop plasma technologies and innovations according to their needs and directly implement them in production lines or design the entire production line. Roll-to-roll production lines are no obstacle either, where, for example, we can use atmospheric plasma generated by a curved source.
Coating Plasma Innovation (France) a Crown Van Gelder (Netherlands)
International project EUROSTARS
Developing a commercially viable and environmentally friendly PECVD in-line coating process for specialty papers using atmospheric plasma with the elimination of silicones in production
ROPLASS (Česko), Polartherm Flachglas (Německo) a INNOVENT e.V. (Německo)
Mezinárodní projekt IraSME – GLAREAL
Ekonomicky i ekologicky výhodnější plazmová technologie pro čištění a povrchovou aktivaci velkoplošného skla s možností implementace do průmyslových linek.
SAULE Technologies (Poland) a ROPLASS (Czechia)
International industry cooperation
Development of atmospheric plasma technology for economically and environmentally efficient production of large-scale flexible perovskite solar cells and subsequent implementation in an existing roll-to-roll production line
NAFIGATE Corporation (Czechia)
International project COSME EK/ELIIT
Development of in-line plasma technology and installation of the production line itself for large-scale production of advanced filtration membranes based on electrospun nanofibers to improve the filtration capabilities of air and water filters
Nanize (Norway)
International contractual research
Activation of the substrate by plasma and subsequent curing of the layers by the plasma for the preparation of surfaces resistant to dirt and soiling with a self-cleaning effect suitable, for example, for anti-graffiti
coatings
Eaton European Innovation Center, Eaton Elektrotechnika (Czech)
National contractual research
Simulation of streamer discharges in electronegative gases and their interaction with dielectric barriers in different configurations for the development of high-breakdown voltage switches