FluidFM as sensor: from optical, mechanical and electrochemical biomolecular detection to single-cell PCR analysis

Unité de recherche

INNOSUISSE

Numéro de projet

14336.2;10 PFNM-NM

Titre du projet

FluidFM as sensor: from optical, mechanical and electrochemical biomolecular detection to single-cell PCR analysis

Titre du projet anglais

FluidFM as sensor: from optical, mechanical and electrochemical biomolecular detection to single-cell PCR analysis

Textes relatifs à ce projet

	Allemand	Français	Italien	Anglais
Description succincte		-	-
Résumé des résultats (Abstract)		-	-

Catégorie	Texte
Description succincte (Allemand)	FluidFM as sensor: from optical, mechanical and electrochemical biomolecular detection to single-cell PCR analysis
Description succincte (Anglais)	FluidFM as sensor: from optical, mechanical and electrochemical biomolecular detection to single-cell PCR analysis
Résumé des résultats (Abstract) (Allemand)	iosensing at the single cell level is of central importance to address fundamental biological questions and for applications toward drug discovery. Under the umbrella of biosensing, we aim at developing three original lines of application opening new market segments for life science R&D. Based on our recently invented FluidFM technology, we will establish: i) mechanical and optical sensing with colloidal particles attached at the tip aperture; ii) single-cell extraction followed by PCR analysis.
Résumé des résultats (Abstract) (Anglais)	iosensing at the single cell level is of central importance to address fundamental biological questions and for applications toward drug discovery. Under the umbrella of biosensing, we aim at developing three original lines of application opening new market segments for life science R&D. Based on our recently invented FluidFM technology, we will establish: i) mechanical and optical sensing with colloidal particles attached at the tip aperture; ii) single-cell extraction followed by PCR analysis.