Add to ORKGThis paper reviews applications of laser-based techniques to the fabrication of microfluidic devices for biochips and addresses some of the challenges associated with the manufacture of these devices. Special emphasis is placed on the use of lasers for the rapid prototyping and production of biochips in particular for applications in which silicon is not the preferred material base. Part I of this review addresses applications and devices using UV lasers for laser ablation and surface treatment of micro- channels, in particular in polymer
We present the use of pulsed lasers as patterning and printing tools for the end applications of mic...
Laser techniques have been traditionally used for material processing. Currently, there is growing r...
MasterProcessing of several biomaterials, particularly enamel, MACOR and gelatin is studied. Enamel ...
This paper reviews applications of laser-based techniques to the fabrication of microfluidic devices...
Optical biochips may incorporate both optical and microfluidic components as well as integrated ligh...
Laser patterning on polymeric materials is considered a green and rapid manufacturing process with l...
Micro-fluidic devices and systems have many applications in clinical diagnostics, drug delivery, and...
In the production of micro devices the surface properties become more and more important for chemist...
Lab-on-a-chip biological platforms have been intensively developed during the last decade since emer...
In the production of micro devices the surface properties become more and more important for chemist...
Microfluidics is a field of research that enables the manipulation of fluids in the submillimetre le...
A femtosecond laser can be used for single or multiple writing processes to create sub 10-μm lines o...
The development of organ-on-chip and biological scaffolds is currently requiring simpler methods for...
As a sequential production method, laser technology is considered not to be a competitor to establis...
In the production of micro devices for applications in chemistry, biotechnology and medical technolo...
We present the use of pulsed lasers as patterning and printing tools for the end applications of mic...
Laser techniques have been traditionally used for material processing. Currently, there is growing r...
MasterProcessing of several biomaterials, particularly enamel, MACOR and gelatin is studied. Enamel ...
This paper reviews applications of laser-based techniques to the fabrication of microfluidic devices...
Optical biochips may incorporate both optical and microfluidic components as well as integrated ligh...
Laser patterning on polymeric materials is considered a green and rapid manufacturing process with l...
Micro-fluidic devices and systems have many applications in clinical diagnostics, drug delivery, and...
In the production of micro devices the surface properties become more and more important for chemist...
Lab-on-a-chip biological platforms have been intensively developed during the last decade since emer...
In the production of micro devices the surface properties become more and more important for chemist...
Microfluidics is a field of research that enables the manipulation of fluids in the submillimetre le...
A femtosecond laser can be used for single or multiple writing processes to create sub 10-μm lines o...
The development of organ-on-chip and biological scaffolds is currently requiring simpler methods for...
As a sequential production method, laser technology is considered not to be a competitor to establis...
In the production of micro devices for applications in chemistry, biotechnology and medical technolo...
We present the use of pulsed lasers as patterning and printing tools for the end applications of mic...
Laser techniques have been traditionally used for material processing. Currently, there is growing r...
MasterProcessing of several biomaterials, particularly enamel, MACOR and gelatin is studied. Enamel ...