| (*)More specifically, upon completion of the course they will be able to
• understand and explain the underlying concepts in the fields of electrochemistry, spectroscopy and photochemistry, which are relevant for the comprehension of spectroelectrochemistry (k2, k3)
• recognise connections, combine and compile these individual concepts to understand the working principle of spectroelectrochemistry (k4, k5, k6)
• understand and illustrate practical spectroelectrochemical measurement setups (k2, k3)
• know and explain spectroscopic techniques, which may be applied to investigate electrochemical systems (k1, k2)
• understand and predict possible (reactive) intermediates of electrochemical reactions and assess, which spectroscopic techniques may be suited to investigate and detect these intermediates (k2, k3, k5)
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(*)Underlying concepts and details of
• electrochemistry and electroanalytical techniques
• spectroscopy
• photochemistry
• spectroelectrochemical setups and practical measurements
• spectroelectrochemical investigation of electrochemical systems and (reactive) intermediates or products of electrochemical reactions using the following spectroscopic techniques:
o UV-vis spectroscopy
o IR spectroscopy
o Raman spectroscopy
o X-ray diffraction
o Mössbauer spectroscopy
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