1. Artifacts and practical issues in Atomic Force Microscopy.- 2. Quantitative analysis of structure and dynamics in AFM images of lipid membranes.- 3. Imaging artificial membranes using high-speed Atomic Force Microscopy.- 4. INVESTIGATING THE NANODOMAIN ORGANIZATION OF RHODOPSIN IN NATIVE MEMBRANES BY ATOMIC FORCE MICROSCOPY.

- 5. Analysis of DNA-protein complexes by Atomic Force Microscopy Imaging: the case of TRF2-telomeric DNA wrapping.- 6. Cell topography and its quantitative imaging by AFM.- 7. Functionalization of AFM Tips and Supports for Molecular Recognition Force Spectroscopy and Recognition Imaging.- 8. Ligand-receptor binding on cell membrane: dynamic force spectroscopy applications.

- 9. SINGLE-MOLECULE FORCE SPECTROSCOPY: EXPERIMENTS, ANALYSIS AND SIMULATIONS.- 10. AFM to study pore-forming proteins.- 11. Imaging and Manipulation of Extracellular Traps by Atomic Force Microscopy.- 12. Investigation of bacterial curli production and adhesion using AFM.

- 13. Antimicrobial peptides: effect on bacterial cells.- 14. AFM Nanoindentation Experiments on Protein Shells: a Protocol .- 15. Structural and mechanical characterization of viruses with AFM.- 16. Quantification of the elastic properties of soft and sticky materials using AFM.

- 17. Measuring the elastic properties of living cells.- 18. Measuring elastic properties of single cancer cells by AFM.- 19. Molecular recognition force spectroscopy for probing cell targeted nanoparticles in vitro.- 20. Biomechanical characterization of human pluripotent stem cell-derived cardiomyocytes by use of atomic force microscopy.

- 21. Simultaneous AFM investigation of the single cardiomyocyte electro-chemo-mechanics during excitation-contraction coupling.