Add to ORKGThis thesis introduces important improvements in fabrication of microfluidic devices on silicon and glass. With the main aim in surface and volume manipulation of aqueous solutions for subsequent biochemical analysis, the backbone of the work has been the development of plasma etching processes for silicon and glass. As the silicon microfabrication technologies are combined with deep anisotropic etching of glass, the processability of microfluidic applications with surface and volume manipulation of fluid is diversified. Several mask materials have been studied with respect to deep plasma etching of glass. As the demand for depth of microfluidic devices extends past 150 µm, the number of usable masking schemes becomes limited. To reach an ...
These days polydimethylsiloxane (PDMS) is one of the most used materials in microfluidic research la...
Excellent chemical and physical properties of glass, over a range of operating conditions, make it a...
The ability to locally functionalize the surface of glass and polymers allows for myriad biomedical ...
This thesis introduces important improvements in fabrication of microfluidic devices on silicon and ...
In this thesis microfluidic chips were developed for tissue sampling, chemical separation and electr...
A new masking technology for wet etching of glass, to a depth of more than 300µm, is reported. Vario...
Microchips for use in biomolecular analysis show a lot of promise for medical diagnostics and biomed...
The objective of this thesis was to establish a good way of wet etching a borosilicate glass named B...
Microfabrication and thin film technologies were applied in the fabrication of miniaturized chemical...
Poly(dimethylsiloxane) (PDMS) is one of the most widely used polymers in microfluidic device applic...
A technology for the fabrication of silicon micromixers and microfilters is presented with their app...
Microsieves are a fairly recent (1994) innovation in membrane-filtration technology, especially at t...
The paper presents one example of the utilization of microplasmas formed in cavities, which are surr...
A new, versatile architecture is presented for microfluidic devices made entirely from glass, for us...
This thesis describes three techniques for the characterization of living cells using micro-electro-...
These days polydimethylsiloxane (PDMS) is one of the most used materials in microfluidic research la...
Excellent chemical and physical properties of glass, over a range of operating conditions, make it a...
The ability to locally functionalize the surface of glass and polymers allows for myriad biomedical ...
This thesis introduces important improvements in fabrication of microfluidic devices on silicon and ...
In this thesis microfluidic chips were developed for tissue sampling, chemical separation and electr...
A new masking technology for wet etching of glass, to a depth of more than 300µm, is reported. Vario...
Microchips for use in biomolecular analysis show a lot of promise for medical diagnostics and biomed...
The objective of this thesis was to establish a good way of wet etching a borosilicate glass named B...
Microfabrication and thin film technologies were applied in the fabrication of miniaturized chemical...
Poly(dimethylsiloxane) (PDMS) is one of the most widely used polymers in microfluidic device applic...
A technology for the fabrication of silicon micromixers and microfilters is presented with their app...
Microsieves are a fairly recent (1994) innovation in membrane-filtration technology, especially at t...
The paper presents one example of the utilization of microplasmas formed in cavities, which are surr...
A new, versatile architecture is presented for microfluidic devices made entirely from glass, for us...
This thesis describes three techniques for the characterization of living cells using micro-electro-...
These days polydimethylsiloxane (PDMS) is one of the most used materials in microfluidic research la...
Excellent chemical and physical properties of glass, over a range of operating conditions, make it a...
The ability to locally functionalize the surface of glass and polymers allows for myriad biomedical ...