Add to ORKGAbstract: A porous plasma stamp has been developed allowing selective plasma treatment and coating of flat surfaces using dielectric barrier discharges at atmospheric pressure. It is shown that flat substrate surfaces can be activated in the same scale as the cavity dimensions and that the treated areas are defined by the footprint of the cavities with a precision in micro-meter scale
The interest in applications of atmospheric-pressure plasmas to solve surface-technological tasks wa...
Various new plasma-based surface technological processes are made feasible by localizing atmospheric...
Cost-efficient technologies for patterned surface functionalization or coating are of great interest...
A porous plasma stamp has been developed allowing selective plasma treatment and coating of flat sur...
A novel plasma stamp has been developed allowing selective plasma treatment and coating of flat surf...
Microplasma stamps based upon the principle of dielectric barrier discharges are applied to a new ty...
A new plasma-chemical micro-patterning technique, here referred to as Plasma Printing, combines the ...
A new plasma-based micropatterning technique, here referred to as plasma printing, combines the well...
Microplasma stamps based upon the principle of dielectric barrier discharges are applied to a new ty...
The patterned treatment of surfaces is of growing interest for a large range of applications in the ...
We present an improved microplasma source based on the principle of dielectric barrier discharge, wh...
Atmospheric-pressure plasma processes based on dielectric barrier discharges (DBD) using air as proc...
DE 102009035411 B3 UPAB: 20101104 NOVELTY - The plasma stamp with a cavity (5a, 5b, 5c), comprises a...
In this work, the design of a contouring flexible plasma stamp for area selective modification of th...
WO 2009141143 A1 UPAB: 20091214 NOVELTY - The plasma stamp comprises a gas conductive layer (4), whi...
The interest in applications of atmospheric-pressure plasmas to solve surface-technological tasks wa...
Various new plasma-based surface technological processes are made feasible by localizing atmospheric...
Cost-efficient technologies for patterned surface functionalization or coating are of great interest...
A porous plasma stamp has been developed allowing selective plasma treatment and coating of flat sur...
A novel plasma stamp has been developed allowing selective plasma treatment and coating of flat surf...
Microplasma stamps based upon the principle of dielectric barrier discharges are applied to a new ty...
A new plasma-chemical micro-patterning technique, here referred to as Plasma Printing, combines the ...
A new plasma-based micropatterning technique, here referred to as plasma printing, combines the well...
Microplasma stamps based upon the principle of dielectric barrier discharges are applied to a new ty...
The patterned treatment of surfaces is of growing interest for a large range of applications in the ...
We present an improved microplasma source based on the principle of dielectric barrier discharge, wh...
Atmospheric-pressure plasma processes based on dielectric barrier discharges (DBD) using air as proc...
DE 102009035411 B3 UPAB: 20101104 NOVELTY - The plasma stamp with a cavity (5a, 5b, 5c), comprises a...
In this work, the design of a contouring flexible plasma stamp for area selective modification of th...
WO 2009141143 A1 UPAB: 20091214 NOVELTY - The plasma stamp comprises a gas conductive layer (4), whi...
The interest in applications of atmospheric-pressure plasmas to solve surface-technological tasks wa...
Various new plasma-based surface technological processes are made feasible by localizing atmospheric...
Cost-efficient technologies for patterned surface functionalization or coating are of great interest...