Add to ORKGFluidic self-alignment of micro-components relies on creating a receptor site that is able to confine a liquid droplet. When a micro-component is brought in contact with the droplet, capillary forces move the component to its final position. A method to stop the advancing of a liquid from a receptor site, consists of creating geometrical features, such as edges around the site. A picosecond pulsed laser source was used to create suitable edges in a metallic and a polyimide substrate. Subsequently, the self-alignment capabilities of these sites were tested. The receptor sites in polyimide showed the highest success rate
Micro-fluidic devices and systems have many applications in clinical diagnostics, drug delivery, and...
The long lasting trend of miniaturization leads to increasing functionality but also to continuously...
Microfluidics is a field of research that enables the manipulation of fluids in the submillimetre le...
VK: T40102Fluidic self-alignment of micro-components relies on creating a receptor site that is able...
Fluidic self-alignment of micro-components relies on creating a receptor site that is able to confin...
AbstractFluidic self-alignment of micro-components relies on creating a receptor site that is able t...
Fluid driven self-alignment is a low cost alternative to fast but relatively inaccurate robotic pick...
Surface tension-driven self-alignment is a passive and highly-accurate positioning mechanism that ca...
Surface tension-driven self-alignment is a passive and highly-accurate positioning mechanism that ca...
[[abstract]]The purpose of this research is to develop a self-alignment mechanism using surface tens...
As a sequential production method, laser technology is considered not to be a competitor to establis...
Soft micro devices and stretchable electronics have attracted great interest for their potential app...
This paper presents the production of bioinspired slippery glass surfaces with interacting cavities ...
Soft micro devices and stretchable electronics have attracted great interest for their potential app...
This paper reports a method combining laser die transfer and mist capillary self-alignment. The lase...
Micro-fluidic devices and systems have many applications in clinical diagnostics, drug delivery, and...
The long lasting trend of miniaturization leads to increasing functionality but also to continuously...
Microfluidics is a field of research that enables the manipulation of fluids in the submillimetre le...
VK: T40102Fluidic self-alignment of micro-components relies on creating a receptor site that is able...
Fluidic self-alignment of micro-components relies on creating a receptor site that is able to confin...
AbstractFluidic self-alignment of micro-components relies on creating a receptor site that is able t...
Fluid driven self-alignment is a low cost alternative to fast but relatively inaccurate robotic pick...
Surface tension-driven self-alignment is a passive and highly-accurate positioning mechanism that ca...
Surface tension-driven self-alignment is a passive and highly-accurate positioning mechanism that ca...
[[abstract]]The purpose of this research is to develop a self-alignment mechanism using surface tens...
As a sequential production method, laser technology is considered not to be a competitor to establis...
Soft micro devices and stretchable electronics have attracted great interest for their potential app...
This paper presents the production of bioinspired slippery glass surfaces with interacting cavities ...
Soft micro devices and stretchable electronics have attracted great interest for their potential app...
This paper reports a method combining laser die transfer and mist capillary self-alignment. The lase...
Micro-fluidic devices and systems have many applications in clinical diagnostics, drug delivery, and...
The long lasting trend of miniaturization leads to increasing functionality but also to continuously...
Microfluidics is a field of research that enables the manipulation of fluids in the submillimetre le...