Eq. 1 : Molecular Chemistry and Macromolecular materials (C3M) Eq. 2 : Metallurgy and Inorganic Materials (M2I)
Renewable energies, Environmental sciences and Safety, Time resolved and multi-techniques characterization, Health, Welfare, Biotechnologies and Industry
- Nanoporous materials (carbon, MOFs, ...) for hydrogen storage
- Use of porous materials as functional supports in the fields of supported catalysis, chromatography and tissue engineering
- Carbon nanoporous electrodes for water decontamination
- Porous silicon matrices for photovoltaic applications
- Development of crosslinked porous meso materials with modular porosity based on the synthesis of (semi-) interpenetrated networks of polymers as nanostructured precursors
- Development of strategies for the synthesis of nanoporous materials with controlled porosity and functionality from semi-degradable diblock copolymers with a well-defined function at the the two-blocks junction
- Engineering nanoporous thermostable polymeric materials
- Systematic studies establishing the relationships between the precursor structure and the morphology of the resulting porous materials
- Development of doubly porous polymeric materials through miscellaneous approaches (double porogen templating, temperature induced phase separation)
Porous polymers
Hybrids organic polymers/inorganic particles
Supported heterogeneous catalysis
Advanced materials for healthcare
MOF
Hydrogen storage
Electrode materials
M-ion batteries
Contact DIM
Contact DIM 1