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Electrochemical measurements in respect of thermodynamics, kinetics and analysis is widely recognized. This course will lay basics of electrochemistry but also considers how to go about designing, explaining and interpreting electrochemical experiments centered around various forms of electrochemical measurements, voltammetry (cyclic, microelectrode, hydrodynamic, etc.) and amperometry.
Last update: Pumera Martin (24.09.2018)
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100% weight will be given to written exam. Last update: Pumera Martin (24.09.2018)
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Understanding voltammetry Textbook by Richard G. Compton Last update: Pumera Martin (24.09.2018)
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• Equilibrium Electrochemistry and the Nernst Equation • Electrode Kinetics • Diffusion and Electrochemistry • Cyclic Voltammetry at Macroelectrodes • Voltammetry at Microelectrodes • Voltammetry at Heterogeneous Surfaces • Cyclic Voltammetry: Coupled Homogeneous Kinetics and Adsorption • Hydrodynamic Electrodes • Voltammetry for Electroanalysis • Voltammetry at the Nanoscale • Amperometry Last update: Pumera Martin (24.09.2018)
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Students will be able to apply the knowledge on • Equilibrium Electrochemistry and the Nernst Equation • Electrode Kinetics • Diffusion and Electrochemistry • Cyclic Voltammetry at Macroelectrodes • Voltammetry at Microelectrodes • Voltammetry at Heterogeneous Surfaces • Cyclic Voltammetry: Coupled Homogeneous Kinetics and Adsorption • Hydrodynamic Electrodes • Voltammetry for Electroanalysis • Voltammetry in Weakly Supported Media: Migration and Other Effects • Voltammetry at the Nanoscale • Amperometry Last update: Pumera Martin (24.09.2018)
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Physical Chemsitry course Last update: Pumera Martin (24.09.2018)
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Coursework assessment | |
Form | Significance |
Examination test | 100 |