PASTEL Platform - Electrochemistry
Plateforme PASTEL - Electrochimie
Name and description of the technique:
The electrochemical activities developed at ILV focus on the electrical responses of a multitude of interfaces: metals and/or semiconductors but also of electroactive molecules in aqueous and non-aqueous environments.
1 Potentiostat Galvanostat VersaSTAT 3
3 Potentiostat Parstat 2273
1 Potentiostat Metrohm Autolab
1 potentiostat PalmSens4
1 Potentiostat Galvanostat Parstat 2263
2 Potentiostats GalvanostatEGG 362
1 bi-potentiostat Biologic
1 Potentiostat Galvanostat263A
1 Potentiostat Galvanostat 283
2 QCM922A
1 Maxtek® research QCM
3 rotating electrodes
1 ring disk
Type of materials/samples studied:
3 Potentiostat Parstat 2273
1 Potentiostat Metrohm Autolab
1 potentiostat PalmSens4
1 Potentiostat Galvanostat Parstat 2263
2 Potentiostats GalvanostatEGG 362
1 bi-potentiostat Biologic
1 Potentiostat Galvanostat263A
1 Potentiostat Galvanostat 283
2 QCM922A
1 Maxtek® research QCM
3 rotating electrodes
1 ring disk
Molecular compounds
Various interfaces in conventional (water or organic solvents) and un-conventional electrolytes such as NH3 liq.
Photoelectrochemistry on semiconductors (III-V, Si…)
Electrocatalysis
Various interfaces in conventional (water or organic solvents) and un-conventional electrolytes such as NH3 liq.
Photoelectrochemistry on semiconductors (III-V, Si…)
Electrocatalysis
Technologies used :
Voltammetry.
Impedance
Chronoamperometry
Chronopotentiometry
Microelectrode
Spécificité(s) :
Impedance
Chronoamperometry
Chronopotentiometry
Microelectrode
Electrochemistry of molecular compounds including polyoxometalates and clusters
Electrochemistry of various metallic surface or semiconductors
Electrochemistry of liquid ammonia
Photoelectrochemistry
Responsible person(s) to contact: Anne-Marie Goncalves - Clément FalaiseElectrochemistry of various metallic surface or semiconductors
Electrochemistry of liquid ammonia
Photoelectrochemistry
Key words: voltammetry in aqueous and non-aqueous media, impedance spectroscopy, redox-active molecules, modified electrode, photoelectrochemistry