Add to ORKGCost-efficient technologies for patterned surface functionalization or coating are of great interest within the glass and plastic industry. In collaboration with partners from industry and academia the Fraunhofer Institute for Surface Engineering and Thin Films IST has developed area-selective ambient pressure plasma treatment processes for patterning surfaces of materials such as silicon, glass or plastic. In the so-called plasma printing process structures with widths down to 20 µm were produced. Different types of equipment have been developed to carry out plasma printing batch processes on silicon or glass and reel-to-reel processes on flexible substrates such as polymer films
The present paper is focused on coating technologies compatible with industrial requirements, partic...
A new potentially cost-efficient technology combining patterned atmospheric pressure dielectric barr...
Plasma processing at atmospheric pressure (APP) has attractions for both economic and technological ...
Cost-efficient technologies for patterned surface functionalization or coating are of great interest...
The interest in applications of atmospheric-pressure plasmas to solve surface-technological tasks wa...
This work demonstrates the feasibility of a simple, cost-effective new printing process, Plasma Prin...
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 ...
Results of the work to develop a new potentially cost-efficient reel-to-reel technology for the prod...
Various new plasma-based surface technological processes are made feasible by localizing atmospheric...
In the development of applications for printed electronics, the interaction of fluids with substrate...
Atmospheric-pressure plasma processes based on dielectric barrier discharges (DBD) using air as proc...
A novel plasma stamp has been developed allowing selective plasma treatment and coating of flat surf...
The processes of plasma deposition and treatment for micro- and nano-patterning biomedical polymers ...
This work discusses the use of plasma technology in the fabrication of MicroElectroMechanical System...
The present paper is focused on coating technologies compatible with industrial requirements, partic...
A new potentially cost-efficient technology combining patterned atmospheric pressure dielectric barr...
Plasma processing at atmospheric pressure (APP) has attractions for both economic and technological ...
Cost-efficient technologies for patterned surface functionalization or coating are of great interest...
The interest in applications of atmospheric-pressure plasmas to solve surface-technological tasks wa...
This work demonstrates the feasibility of a simple, cost-effective new printing process, Plasma Prin...
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 ...
Results of the work to develop a new potentially cost-efficient reel-to-reel technology for the prod...
Various new plasma-based surface technological processes are made feasible by localizing atmospheric...
In the development of applications for printed electronics, the interaction of fluids with substrate...
Atmospheric-pressure plasma processes based on dielectric barrier discharges (DBD) using air as proc...
A novel plasma stamp has been developed allowing selective plasma treatment and coating of flat surf...
The processes of plasma deposition and treatment for micro- and nano-patterning biomedical polymers ...
This work discusses the use of plasma technology in the fabrication of MicroElectroMechanical System...
The present paper is focused on coating technologies compatible with industrial requirements, partic...
A new potentially cost-efficient technology combining patterned atmospheric pressure dielectric barr...
Plasma processing at atmospheric pressure (APP) has attractions for both economic and technological ...