Projects
Lab-on-a-chip for cryo-EM (LOCEM). University of Antwerp
Lab-on-a-Chip (LoC) for forensic STR profiling. Ghent University
Development of a portable, USB powered ‘lab on a chip’ (LoC) to perform rapid forensic DNA profiling, without the current need for sophisticated laboratory instrumentation. The chip will be designed based on Imec’s expertise in silicon microchip development, incorporating all sequential steps of a DNA analysis into a disposable, single-use, closed-loop device.
Innovative mOSTE+ designed digital lab-on-a-chip for manipulation and downstream single cell analysis KU Leuven
Individual cells in a population can substantially differ at the genomic and functional level. Getting further insight into these differences might be a key to answering many of the remaining questions linked to different physiological or pathological processes. Although single cell analysis is rapidly evolving field, the methods are often not amenable to spatio-temporal studies in individual cells in situ and are accompanied by cumbersome ...
Development and validation of an integrated lab-on-a-Chip Ghent University
Lab-on-a-chip technology for protein detection in bio-reactors. KU Leuven
Development of a lab-on-a-chip system for on-line electro-optical monitoring of electroporation of archaeal cells Vrije Universiteit Brussel
development of cost-efficient industrial-scale biomanufacturing techniques. The proposed system will overcome a major bottleneck in translating ...
Miniaturized disposable lab-on-a-chip sensor for drinking Ghent University
Our research project is situated in the domain of
biophotonics, in particular in the use of novel functional polymers for the development of a polymer photonic biosensor for the microbiological screening of drinking water.
Miniaturized disposable lab-on-a-chip sensor for drinking water contaminant detection. Vrije Universiteit Brussel
Active Microfluidic Components with Semiconductor Technology Compatible Materials and Methods KU Leuven
Lab-on-chip and micro total analysis systems have attracted great interest from both research communities and the commercial sectors over the past 30 years after the first introduction of microfluidics as an individual subject in the 1980s. A typical integrated active lab-on-chip device consists of fluidic parts represented by micropumps and microvalves to precisely drive and control the routing, timing, and mixing of fluids, and of ...