Development of nanosensors and nanoscopy
The department models and develops various innovative nanosensors and nanocharacterization tools for applications in the fields of health, the environment or food.
Development of plasmonic/optical nanosensors
- Plasmo-photonic chips for health and agri-food
- For protein conformation characterization
Development of fluidic nanosensors
- For the study of the protein crown
- For protein sequencing
Development of multifrequency characterization tools at the nanometric scale
- Protein/biological membrane interactions
- Non-destructive testing for component analysis
- For pharmaceuticals
- For studying the assembly and remodeling of nucleoprotein complexes
- kc_data:
- a:8:{i:0;s:0:"";s:4:"mode";s:2:"kc";s:3:"css";s:0:"";s:9:"max_width";s:0:"";s:7:"classes";s:0:"";s:9:"thumbnail";s:0:"";s:9:"collapsed";s:0:"";s:9:"optimized";s:0:"";}
- kc_raw_content:
- [kc_row use_container="yes" _id="617532"][kc_column width="12/12" video_mute="no" _id="177217"][kc_spacing height="20" _id="330714"][/kc_column][/kc_row][kc_row use_container="yes" _id="340177"][kc_column width="60%" video_mute="no" _id="898417"][kc_column_text _id="595018"]
Development of nanosensors and nanoscopy
The department models and develops various innovative nanosensors and nanocharacterization tools for applications in the fields of health, the environment or food.
Development of plasmonic/optical nanosensors
- Plasmo-photonic chips for health and agri-food
- For protein conformation characterization
Development of fluidic nanosensors
- For the study of the protein crown
- For protein sequencing
Development of multifrequency characterization tools at the nanometric scale
- Protein/biological membrane interactions
- Non-destructive testing for component analysis
- For pharmaceuticals
- For studying the assembly and remodeling of nucleoprotein complexes