The course is organized in two sections: the fundamentals of electrochemistry and electron transfer are firstly presented, followed by the description of electroanalytical techniques. The first section includes:
• Electrostatics and electrochemistry fundamentals (4 h): physical quantities in electrostatics, electrochemical potential, electrochemical equilibrium, electrochemical cells, ions in solution, activity
• Electrode-solution interface (4 h)
• Electron transfer kinetics (4 h)
• Diffusional control (4 h)
The second section is devoted to electroanalytical techniques:
• Electrode types and features (4 h): construction, polarizable window, static and hydrodynamic electrodes, micro and nano-electrodes
• Chronoamperometry and chronocoulometry (2 h)
• Voltammetric techniques (4 h): potential scan, preconcentration steps, signal sampling
• Stripping voltammetry (4 h): type of stripping and applications
• Cyclic voltammetry (4 h lecture and 6 h laboratory activities): study of reaction mechanisms and characterization of electrochemical properties
• Potentiometric techniques (4 h): principles, instrumentations, electrodes and applications
• Sensors and biosensors (4 h): definition, principles, construction, glucose biosensor
The two laboratory activities (3 h each) are devoted to the determination of the electrochemical properties of two species showing different features: electrochemical properties (i.e. formal redox potential, exchanged electrons, symmetry coefficient and heterogeneous kinetic constant) will be determined for both species, whereas adsorption properties will be determined for the adsorbing species.