Project Details
Description
With the support of IOF a consortium between prof. Wim De Malsche of the µFlow group of the Department of Bioengineering Sciences (DBIT) and prof. Karine Hellemans of the Diabetes Research Cluster (DRC) of the VUB has launched the µFlow Cell, which will develop the following three valorization routes in microfluidics.
Design and develop innovative microfluidic solutions within the core research lines of the consortium.
Fabricate and validate microfluidic devices and microreactors, from prototype to small industrial series.
Engineer and produce functional microparticles, such as biomaterials for therapeutic or diagnostic procedures, from lab to small industrial scale.
Design and develop innovative microfluidic solutions within the core research lines of the consortium.
Fabricate and validate microfluidic devices and microreactors, from prototype to small industrial series.
Engineer and produce functional microparticles, such as biomaterials for therapeutic or diagnostic procedures, from lab to small industrial scale.
| Acronym | IOF3006 |
|---|---|
| Status | Finished |
| Effective start/end date | 1/01/19 → 31/12/24 |
Keywords
- microfluifics
Flemish discipline codes in use since 2023
- Microfluidics/flow chemistry
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Research output
- 7 Patent
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On-chip structured silicon-on-insulator vortex inducer
De Malsche, W. (Inventor), Westerbeek, E. (Inventor), Eijkel, J. (Inventor) & Olthuis, W. (Inventor), 2022, Patent No. EP4100160Research output: Patent
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High-performance liquid chromatography with a controllable transverse flow inducer
De Malsche, W. (Inventor), 2021, Patent No. EP3322978BResearch output: Patent
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On-chip structured silicon-on-insulator vortex inducer
De Malsche, W. (Inventor), Westerbeek, E. (Inventor), Eijkel, J. (Inventor) & Olthuis, W. (Inventor), 2021, Patent No. WO2021156319Research output: Patent