The course aims to provide the foundations for understanding and using modern spectroscopic techniques based on nuclear magnetic resonance, combining lectures with laboratory experience.
After a general introduction (spins in magnetic fields, instrumentation, pulsed Fourier transform techniques, one-dimensional spectra, magnetic field gradients, and suppression of the intense solvent signal), the product operator formalism is presented, which makes it possible to understand most multidimensional experiments, both homonuclear and heteronuclear. Finally, the principles underlying relaxation phenomena are introduced, and two methods for obtaining structural and dynamical information at atomic resolution are presented.
Exercises and practicals allow students to verify their understanding of the theoretical aspects discussed throughout the course.
- Docente: FELLI ISABELLA CATERINA