Conventional manufacturing of microfluidic devices from glass substrates is a complex, multi-step process that involves different fabrication techniques and tools. Hence, it is time-consuming and expensive, in particular for the prototyping of microfluidic devices in low quantities. This article describes a laser-based process that enables the rapid manufacturing of enclosed micro-structures by laser micromachining and microwelding of two 1.1-mm-thick borosilicate glass plates. The fabrication process was carried out only with a picosecond laser (Trumpf TruMicro 5×50) that was used for: (a) the generation of microfluidic patterns on glass, (b) the drilling of inlet/outlet ports into the material, and (c) the bonding of two glass plates toge...
Micro-fluidic devices and systems have many applications in clinical diagnostics, drug delivery, and...
By modification of glasses with ultrafast laser radiation and subsequent wet-chemical etching (here ...
Glass is an alternative solution to polymer for the fabrication of three-dimensional (3D) microfluid...
Conventional manufacturing of microfluidic devices from glass substrates is a complex, multi-step pr...
We present a rapid and highly reliable glass (fused silica) microfluidic device fabrication process ...
Microfluidics is a field of research that enables the manipulation of fluids in the submillimetre le...
Traditional processes to manufacture micro-fluidic devices include standard lithography, electron be...
Abstract: We report on the fabrication of 3D micro-structures in fused silica glass using chemical e...
This study presents the development of post-processing steps for microfluidics fabricated with selec...
In this thesis, three different processes for the fabrication of microchannels in three different ba...
In the last decades, the femtosecond laser micromachining of glass has attracted a lot of attention ...
An effective development platform for custom lab-on-a-chip and lab-on-a-foil solutions has been rega...
An ultrafast laser processing of glass for MEMS and micro-fluidic application was presented in this ...
Carbon dioxide (CO2)-laser processing of glasses is a versatile maskless writing technique to engrav...
The fabrication of microdevices for fluidic control often requires the use of flexible diaphragms in...
Micro-fluidic devices and systems have many applications in clinical diagnostics, drug delivery, and...
By modification of glasses with ultrafast laser radiation and subsequent wet-chemical etching (here ...
Glass is an alternative solution to polymer for the fabrication of three-dimensional (3D) microfluid...
Conventional manufacturing of microfluidic devices from glass substrates is a complex, multi-step pr...
We present a rapid and highly reliable glass (fused silica) microfluidic device fabrication process ...
Microfluidics is a field of research that enables the manipulation of fluids in the submillimetre le...
Traditional processes to manufacture micro-fluidic devices include standard lithography, electron be...
Abstract: We report on the fabrication of 3D micro-structures in fused silica glass using chemical e...
This study presents the development of post-processing steps for microfluidics fabricated with selec...
In this thesis, three different processes for the fabrication of microchannels in three different ba...
In the last decades, the femtosecond laser micromachining of glass has attracted a lot of attention ...
An effective development platform for custom lab-on-a-chip and lab-on-a-foil solutions has been rega...
An ultrafast laser processing of glass for MEMS and micro-fluidic application was presented in this ...
Carbon dioxide (CO2)-laser processing of glasses is a versatile maskless writing technique to engrav...
The fabrication of microdevices for fluidic control often requires the use of flexible diaphragms in...
Micro-fluidic devices and systems have many applications in clinical diagnostics, drug delivery, and...
By modification of glasses with ultrafast laser radiation and subsequent wet-chemical etching (here ...
Glass is an alternative solution to polymer for the fabrication of three-dimensional (3D) microfluid...