Add to ORKGA polymer microfluidic device has been fabricated using rapid prototyping techniques. The device was built up to allow the formation and subsequent investigation of artificial bilayer lipid membranes (BLMs). A simple dry film photoresist stamp was used to hot emboss microfluidic channels into PMMA films. Laser micromachining was employed to form an aperture into PMMA films. Laser micromachining was employed to form an aperture through the PMMA channels, across which the BLM was later formed. The dry film phororesist was also used as a simple etch mask for the deep etching of glass substrates in buffered HF solutions, which was used in this work for the production of glass embossing stamps. We show that bilayer films can be successfully prod...
AbstractAs an approach to create versatile model systems of the biological membrane we have recently...
A microfluidic platform is reported for various experimentation schemes on cell membrane models and ...
To develop a reliable method for on-chip bilayer lipid membrane (BLM) formation, which could be empl...
A polymer microfluidic device has been fabricated using rapid prototyping techniques. The device was...
A polymer microfluidic device has been fabricated using rapid prototyping techniques. The device was...
A polymer microfluidic device has been fabricated using rapid prototyping techniques. The device was...
A polymer microfluidic device has been fabricated using rapid prototyping techniques. The device was...
A microfabricated silicon device with an aperture machined through a suspended silicon nitride membr...
A polymer microfluidic device for the formation of artificial bilayer lipid membranes (BLMs) on-chip...
The use of spark assisted chemical engraving (SACE) to produce glass apertures that are suitable for...
A microfabricated silicon device for studying artificial lipid bilayer systems is described. The exp...
The use of spark assisted chemical engraving (SACE) to produce glass apertures that are suitable for...
The use of spark assisted chemical engraving (SACE) to produce glass apertures that are suitable for...
AbstractWe present a new method for creating patches of fluid lipid bilayers with conjugated biotin ...
To develop a reliable method for on-chip bilayer lipid membrane (BLM) formation, which could be empl...
AbstractAs an approach to create versatile model systems of the biological membrane we have recently...
A microfluidic platform is reported for various experimentation schemes on cell membrane models and ...
To develop a reliable method for on-chip bilayer lipid membrane (BLM) formation, which could be empl...
A polymer microfluidic device has been fabricated using rapid prototyping techniques. The device was...
A polymer microfluidic device has been fabricated using rapid prototyping techniques. The device was...
A polymer microfluidic device has been fabricated using rapid prototyping techniques. The device was...
A polymer microfluidic device has been fabricated using rapid prototyping techniques. The device was...
A microfabricated silicon device with an aperture machined through a suspended silicon nitride membr...
A polymer microfluidic device for the formation of artificial bilayer lipid membranes (BLMs) on-chip...
The use of spark assisted chemical engraving (SACE) to produce glass apertures that are suitable for...
A microfabricated silicon device for studying artificial lipid bilayer systems is described. The exp...
The use of spark assisted chemical engraving (SACE) to produce glass apertures that are suitable for...
The use of spark assisted chemical engraving (SACE) to produce glass apertures that are suitable for...
AbstractWe present a new method for creating patches of fluid lipid bilayers with conjugated biotin ...
To develop a reliable method for on-chip bilayer lipid membrane (BLM) formation, which could be empl...
AbstractAs an approach to create versatile model systems of the biological membrane we have recently...
A microfluidic platform is reported for various experimentation schemes on cell membrane models and ...
To develop a reliable method for on-chip bilayer lipid membrane (BLM) formation, which could be empl...