Offering new and original technological advances for the future to address the energy transition to reduce CO2 emissions
Materials chemistry and interfaces
Molecular or nanoparticle self-assembly at interfaces…
Electrochemistry, operando monitoring, and advanced characterization
Electrochemistry for batteries and surface treatment
Aging and sustainibility
Long-term behavior and protection of materials for energy
To support the ongoing energy transition, which is essential for achieving the necessary reduction in CO2 emissions, ongoing basic research remains crucial for developing innovative technological solutions.
Research at NIMBE on new energy technologies and the energy transition focuses on several key areas:
- Materials Chemistry (LEDNA, LSDRM, LAPA, LEEL, LICSEN)
- From molecules to molecular materials
- Nanostructured materials for energy
- Characterization of Materials for Energy
- Catalysis (LCMCE)
- Catalytic transformations for energy (LCMCE)
- Electrochemistry and in-situ monitoring (LICSEN, LSDRM, LEEL)
- Aging and durability (LIONS, LAPA)
