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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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Keywords
LiTFSI
Thermal conductivity
Cyclic voltammetry
Ionic Liquid
Thermophysical properties
Li-ion battery
High voltage
Heat transfer fluids
1-butyl-1-methylpyrrolidinium bistrifluoromethylsulfonylimide
Electrochemical capacitors
High potential spinel
Catholyte
Lithium
Electrochemistry
Gamma butyrolactone
Ionic liquids
2D ionic transport
Graphite
Tensiometry
Morphology
Electrolyte
Statistical physics
Electrodes
Density functional theory
Nanoparticles
Protic ionic liquid
Carbon nanotubes
Negative electrode
N-methylacetamide
Protic ionic liquids
Lithium compounds
Group contribution model
Additives
Polypyrrole
CO2 capture
3-benzodioxoles
Speed of sound
2-apyrimidines
Supercapacitor
3-propane sultone
Modeling
Cathode
Temperature
Manganese oxide
Rubber
Electrolyte/electrode interface
Conductimetry
Electrolytes
Perovskite solar cells
Activated carbon
Adiponitrile
Cathodes
Acetonitrile
Viscosity
Electrochemical performances
Copolymerization
Battery
Isobaric heat capacity
Li-ion batteries
Batteries
Conducting polymers
Propylene carbonate
Micellar parameters
Deep eutectic solvents
Supercapacitors
Binary mixtures
MnO2
Transport properties
SEI
Hole transporting material
Electrochemical storage
Symmetric cells
Manganese
Lithium salt
SEI additives
Ionic liquid
Dynamic light scattering
Cryoetching
LiS batteries
Na-ion batteries
Electrochemical polymerization
Physical properties
Lithium-ion batteries
Lithium ion batteries
Energy storage systems
Heat capacity
Ionic Liquids
Electrochemical impedance spectroscopy
Volumetric properties
Alkylcarbonates
Water
Adsorption isotherms
Deep eutectic solvent
Electrolyte additives
Capacitance
Carbazole
Chemical activation
Bistrifluoromethylsulfonylimide
Nanocomposites
Latest publications
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Soukaina Hilali, Louise van Gheluwe, Mervé Yagmur, Laura Wils, Myriam Phelippe, et al.. NaDES-based biorefinery of Spirulina (Arthrospira platensis): A new path for sustainable high value-added metabolites. Separation and Purification Technology, 2024, 329, pp.125123. ⟨10.1016/j.seppur.2023.125123⟩. ⟨hal-04213157⟩
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Arunabh Ghosh, Fouad Ghamouss, Flavien Ivol, Marina Porcher, Johan Jacquemin. Development of a safe and high-performance electrolyte based on Phenylacetonitrile (C$_6$H$_5$CH$_2$CN) and ionic liquid blends. Le Studium Multidisciplinary Journal, 2021, 5, pp.16-39. ⟨10.34846/le-studium.196.01.fr.01-2021⟩. ⟨hal-04198372⟩