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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


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





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