Based on a multidisciplinary expertise, the BioMEMS group develops advanced technological solutions dedicated to biosensors, microfluidics for handling and studying bio species and solutions to control surface wettability. In order to strengthen and expand our know-how and active network of collaborations and to significantly develop our impact on society, our goal is to focus our efforts on three themes:
Microtechnologies and Microfluidic for living sciences
- Biomimetic microfluidic system for the metastatic proliferation study (INCA financial support, GLYCOSTEM project, 2015-2018). anthony.treizebre@univ-lille.fr
- Biophysical signature of circulating tumor cells as a marker to investigate metastatic potential (SMMIL-E Project). cagatay.tarhan@isen-lille.fr
- Advanced technology for high throughput fluidic (Industrial project (Gènes Diffusion company), since 2014). anthony.treizebre@univ-lille.fr
- Microfluidic interface platform between neural networks. thomas.dargent@univ-lille.fr
- In vitro and ex vivo study of parasite. jerome.follet@yncrea.fr
- Molecular programming (ANR-DFG – MolPro2BioSens, 2018-2021). alexis.vlandas@univ-lille.fr
Collaborations: LIMMS/CNRS-IIS (Japan), Kyusu Inst. Of Tech. (Japan), The University of Tokyo (Japan), Univ. Gand (Belgium), U908-INSERM, Centre de Recherche Jean-Pierre Aubert (UMR-S 1172), PhLAM, NBI Group
Smart surfaces
- Controlling wetting properties (ANR Economics, 2018-2021, Railenium-SNCF project 2019-2021).
- Smart textile (Industrial project (Damart Company 2012-2019), Interreg Project PhotoTEX (2018-2022). vincent.thomy@univ-lille.fr
Collaborations: LMCPA, UMET, Railenium, GEMTEX (ENSAIT-HEI), CETI, Univ. Mons (Belgium), Ephony Group, Mamina Group, NBI Group
Bio-printing from molecules to cells
- Printing technologies for biopolymer (ANR P2N, REFLEX, 2011-2015). celine.vivien@univ-lille.fr
- Highthrouput screening for optical biosensor. (ANR P2N, REFLEX, 2011-2015, SATT project, Start-up project creation, ZymOptiq). alexis.vlandas@univ-lille.fr
Poster BioMEMS