Application of coplanar dielectric barrier discharge for modification of printed functional coatings – Mgr. Július Vida, Ph.D.
Mgr. Július Vida, Ph.D.
Doctoral thesis
Application of coplanar dielectric barrier discharge for modification of printed functional coatings
Application of coplanar dielectric barrier discharge for modification of printed functional coatings
Abstract:
Poptávka po efektivnějších zařízeních pro získávání energie, systémech skladování energie, senzorech a dalších elektronických zařízeních vede k hledání nových materiálů s vylepšenými vlastnostmi a také nových metod zpracování. Nejmodernější elektronická zařízení na bázi křemíkových substrátů nesplňují požadavky na levné výrobní kroky, které v poslední době zahrnují výrobu roll-to-roll na flexibilních …moreAbstract:
The demand for more efficient energy harvesting, energy storage systems, sensors, and other electronic devices has driven the search for new materials with enhanced properties as well as new processing methods. The state of the art electronic devices based on silicon substrates do not meet requirements for low-cost fabrications steps, which recently involve roll-to-roll manufacturing on flexible substrates …more
Language used: English
Date on which the thesis was submitted / produced: 16. 11. 2023
Identifier:
https://is.muni.cz/th/g5c7p/
Thesis defence
- Date of defence: 23. 1. 2024
- Supervisor: doc. RNDr. Tomáš Homola, PhD.
- Reader: doc. Ing. Miroslav Mikolášek, PhD., doc. Ing. Tomáš Syrový, Ph.D.
Citation record
ISO 690-compliant citation record:
VIDA, Július. \textit{Application of coplanar dielectric barrier discharge for modification of printed functional coatings}. Online. Doctoral theses, Dissertations. Brno: Masaryk University, Faculty of Science. 2023. Available from: https://theses.cz/id/582i9p/.
Full text of thesis
Contents of on-line thesis archive
Published in Theses:- světu
Other ways of accessing the text
Institution archiving the thesis and making it accessible: Masarykova univerzita, Přírodovědecká fakultaMasaryk University
Faculty of ScienceDoctoral programme / field:
Physics / Plasma Physics
Theses on a related topic
-
Study of dielectric barrier discharges, their applications and fundamental properties
Jakub Kelar -
Atmospheric pressure plasma treatment of metal surfaces by DCSBD plasma source: effects of plasma treatment and aging effect of plasma treated surfaces
Vadym Prysiazhnyi -
Enhancement of energy harvesting systems efficiency by atmospheric pressure plasma treatment
Masoud Shekargoftar -
Diagnostics and applications of atmospheric pressure microwave plasma
Miroslav Šnírer -
Atmospheric Pressure Plasma Activation and Nano-Modification of Polypropylene Nonwoven Fabrics
Nina Radić -
Modification of semiconductors and oxides in plasma generated at atmospheric pressure
Dana Skácelová -
Chemical and Physical Properties of Nanostructures on Surface Investigated by Scanning Probe Microscopy
Vijai Meena SANTHINI