The lectures on Monday and Tuesday will deal with basics of steady-state and time-resolved fluorescence spectroscopy, instrumentation and data analysis. They cover time-domain and frequency-domain measurements, anisotropy, solvent effects, quenching and Förster Resonance Energy Transfer (FRET).
On Wednesday and Thursday, the lectures cover advanced time-resolved fluorescence topics and data analysis. Applications of fluorescence in biophysics, sensing, plasmon controlled fluorescence or material science are presented along with an introduction to fluorescence microscopy.
The practical sessions including steady-state and time-resolved experimentation as well as data analysis are offered on various instruments provided by market leading companies.