Covered Course Topics
I. First part: Fundamentals of Electrochemistry and Electrocatalysis
Ionic solutions and ionic conductivity, the Double Layer concept, Thermodynamics of electrochemical reactions, Galvanic Cells and the Nernst Equation, Faradays Laws, Tafel Equation, Electrode Kinetics, Butler-Volmer Equation, Concepts of Electrocatalysis, The hydrogen electrode, The oxygen electrode, Cyclic Voltammetry and related methods, The Rotating Disk Electrode, Spectro-electrochemistry (electrochemical Mass Spectrometry and electrochemical vibrational Spectroscopy), Scattering Methods in Electrochemistry,
II. Second part: Advanced Topics/Applications of Electrochemistry and Electrochemical Devices
Batteries and electrochemical energy storage in solid state devices, Fuel Cells and electrochemical energy conversion, Photoelectrochemistry and energy storage in molecules, Electrolysis, Industrial Synthetic Electrochemistry, Electroplating and Electrodeposition, Sensors, Bioelectrochemistry
- Trainer/in: Frank Beuster
- Trainer/in: Paul Wolfgang Buchheister
- Trainer/in: Fabio Dionigi
- Trainer/in: Taban Mottale-Sarab
- Trainer/in: Peter Strasser