Skip to Main content Skip to Navigation
The Physico-Chemistry of Materials and Electrolytes for Energy laboratory (PCM2E) was created in 2012 and works in the field of energy conversion and storage (batteries, supercapacitors, hybrid photovoltaics, ionic liquids), on nanostructured materials and organic electrochromic devices.

The overall project of the laboratory is built around skills in electrochemistry, thermodynamics and materials chemistry. The laboratory has three priority themes which are:

- Axis 1: Electrolytes, membranes and electrode materials for energy storage

- Axis 2: Organic semiconductors and nanostructured materials

- Axis 3: Ionic Liquids


Chargement de la page












Carbazole Carbon nanotubes Micellar parameters 2-apyrimidines Thermophysical properties N-methylacetamide Electrochemical performances Tensiometry Electrochemical storage Electrolyte Negative electrode Density functional theory Transport properties Physical properties Conducting polymers Electrochemical capacitors Electrochemical polymerization Electrolyte/electrode interface 3-benzodioxoles Binary mixtures Lithium-ion batteries Water Copolymerization Lithium ion batteries Na-ion batteries Acetonitrile Manganese Capacitance Polypyrrole SEI additives 2D ionic transport Isobaric heat capacity Deep eutectic solvent LiS batteries Li-ion batteries Additives Group contribution model Lithium Propylene carbonate Energy storage systems Batteries Alkylcarbonates Morphology Li-ion battery Cathodes Lithium salt Electrochemistry Cyclic voltammetry Bistrifluoromethylsulfonylimide Hole transporting material Protic ionic liquids Cathode Ionic liquid Conductimetry Statistical physics 1-butyl-1-methylpyrrolidinium bistrifluoromethylsulfonylimide Manganese oxide Deep eutectic solvents Ionic Liquids 3-propane sultone Electrochemical impedance spectroscopy Modeling Ionic Liquid Speed of sound Electrodes Temperature Ionic liquids Nanocomposites Gamma butyrolactone LiTFSI Heat capacity High potential spinel High voltage Catholyte Activated carbon MnO2 Electrolytes SEI Nanoparticles Supercapacitors Protic ionic liquid Rubber Adiponitrile Electrolyte additives Viscosity Supercapacitor CO2 capture Chemical activation Symmetric cells Thermal conductivity Heat transfer fluids Graphite Adsorption isotherms Cryoetching Lithium compounds Battery Perovskite solar cells Volumetric properties Dynamic light scattering



Chargement de la page