Add to ORKGA new potentially cost-efficient technology combining patterned atmospheric pressure dielectric barrier discharge (DBD) treatment, here referred to as 'plasma-printing', and galvanic plating for the production of flexible printed circuits (FPC) is presented in this contribution. The technology is being jointly developed by partners from industry and academia, a major aim being the realization of the process in a reel-to-reel production system. So far, plasma-printing experiments have been carried out using lab-scale batch plants. Using suitable electroless plating baths, RFID-like tag and interdigital structures with line widths and spaces down to 200 micron could already be produced. Adhesion of copper on DBD treated polyimide foil reached...
The present paper reports on the local atmospheric pressure plasma pretreatment of polymeric substra...
Paper presented at the Proceedings of the 24th International Conference on Flexible Automation & Int...
Cost-efficient technologies for patterned surface functionalization or coating are of great interest...
A new potentially cost-efficient technology combining patterned atmospheric pressure dielectric barr...
A new potentially cost-efficient technology combining patterned atmospheric pressure dielectric barr...
A new potentially cost-efficient technology combining patterned atmospheric pressure dielectric barr...
Results of the work to develop a new potentially cost-efficient reel-to-reel technology for the prod...
Purpose- the purpose of this paper is to present details of the plasma printing and packaging techno...
A new plasma-based micropatterning technique, here referred to as plasma printing, combines the well...
A new plasma-chemical micro-patterning technique, here referred to as Plasma Printing, combines the ...
This work demonstrates the feasibility of a simple, cost-effective new printing process, Plasma Prin...
Atmospheric pressure plasma treatment of the surface of a polypropylene film can significantly incre...
Atmospheric-pressure plasma processes based on dielectric barrier discharges (DBD) using air as proc...
In this paper, pulsed-power technology was applied to plasma printing, which is a maskless plasma pa...
In the development of applications for printed electronics, the interaction of fluids with substrate...
The present paper reports on the local atmospheric pressure plasma pretreatment of polymeric substra...
Paper presented at the Proceedings of the 24th International Conference on Flexible Automation & Int...
Cost-efficient technologies for patterned surface functionalization or coating are of great interest...
A new potentially cost-efficient technology combining patterned atmospheric pressure dielectric barr...
A new potentially cost-efficient technology combining patterned atmospheric pressure dielectric barr...
A new potentially cost-efficient technology combining patterned atmospheric pressure dielectric barr...
Results of the work to develop a new potentially cost-efficient reel-to-reel technology for the prod...
Purpose- the purpose of this paper is to present details of the plasma printing and packaging techno...
A new plasma-based micropatterning technique, here referred to as plasma printing, combines the well...
A new plasma-chemical micro-patterning technique, here referred to as Plasma Printing, combines the ...
This work demonstrates the feasibility of a simple, cost-effective new printing process, Plasma Prin...
Atmospheric pressure plasma treatment of the surface of a polypropylene film can significantly incre...
Atmospheric-pressure plasma processes based on dielectric barrier discharges (DBD) using air as proc...
In this paper, pulsed-power technology was applied to plasma printing, which is a maskless plasma pa...
In the development of applications for printed electronics, the interaction of fluids with substrate...
The present paper reports on the local atmospheric pressure plasma pretreatment of polymeric substra...
Paper presented at the Proceedings of the 24th International Conference on Flexible Automation & Int...
Cost-efficient technologies for patterned surface functionalization or coating are of great interest...