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BIOS: Lab-on-a-chip group
UT
Faculties
EEMCS
Disciplines & departments
BIOS
Research
Theme: Micro- and nanofluidics
Former micro-/nanofluidics projects
BIOS: Lab-on-a-chip group
UT
Faculties
EEMCS
Disciplines & departments
BIOS
Research
Theme: Micro- and nanofluidics
Former micro-/nanofluidics projects
Former micro-/nanofluidics projects
Biomolecules in nanochannels and separation devices
The aim of this project is to develop a nanofluidic device, which uses electrokinetics to separate biomolecules.
Bubblepump
In this project fluid manipulation for micro chemical systems is studied. The focus is on nanofluidic devices and networks, made by thin film Integrated Fluidics ("IF") technology.
Attoliter droplets for the investigation of single biomolecules
Electrowetting
The objective of this project is to make electrically tunable surfaces in silicon microchannels for the control of fluid flow and catalysis. To accomplish this, self-assembled monolayers (SAMs) are used; SAMs form ultrathin, covalently bound, chemical interfaces of typically a few nanometers thick.
Densely packed nanoemulsions for liquid chromatography
Microfluidic Free-Flow Electrophoresis for Proteomics on a chip
Flow sensing and control in nanochannels
In the past years the BIOS-chair has gained a lot of knowledge in downscaling systems for biomedical and environmental applications.
Micro- and nanodevices
In this project fluid manipulation for micro chemical systems is studied. The focus is on nanofluidic devices and networks, made by thin film Integrated Fluidics ("IF") technology.
Energy from streaming potential using nanotechnology 2
Ion-selection in nanochannels using double layer effects
The aim of the project is to develop so far unrealized nanofluidic components for lab on a chip issues that allow the modification of ionic transport and concentration distribution by means of interaction of external electrical fields with electrical double layers.
Nano device and system fabrication technologies
Nanochannel fabrication is still a new area, and there is great need for new production technologies of the channels themselves, and for integrated actuating and sensing/detecting elements. The aim of this project is to develop such technologies.
Solving Advanced Micromachining Problems for Ultra-Rapid and Ultra-High Resolution On-Chip Liquid Chromatography
Obstacles that hamper the further development of liquid chromatography on a chip are investigated and dealt with.
Two-phase flow in nanochannels
The aim of the project is to develop nanofluidic structures for lab-on-a-chip that can manipulate liquid and gas pockets.
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