The study of molecular-sized objects supported on surfaces provides a unique application for any AFM. The user can make rapid progress by accessing the advanced list of SPM techniques implemented in the Cervantes Full-Mode AFM. Discover state-of-the-art properties of nanostructures using advanced techniques such as FM-KPM (Frequency Modulation with Kelvin Probe Microscopy), nanomanipulation, conductive mapping, and much more.
- Influence of Thermal Ageing on Surface Degradation of Ethylene-Propylene-Diene Elastomer
R. Nevshupa, L. Martinez, L. Alvarez, M. F. Lopez, Y. Huttel, J. Mendez and E. Roman. Journal of Applied Polymer Science 44, 119, 242 (2011)
- Scanning Probe Microscopy Characterization of Single Chains Based on
a One-Dimensional Oxalato-Bridged Manganese(II) Complex with
4-Aminotriazole
U. García-Couceiro, D. Olea, O. Castillo, A. Luque, P. Román,
P. J. de Pablo, J Gómez-Herrero, and Félix Zamora et al. Inorganic Chemistry 44, 8343–8348 (2005)
- Complex dynamics of carbon nanotube probe tips
S.I. Lee et al. Ultramicroscopy 103 , 95-102 (2005)
- Nonlinear tapping dynamics of multi-walled carbon nanotube tipped atomic force microcantilevers
S.I. Lee et al. Nanotechnology 15, 416-421 (2004)
- Deformation and Collapse of Microtubules on the Nanometer Scale
de Pablo et al. Physical Review Letters 91, 098101(4) (2003)
- Mechanical and electrical Properties of Nanosized Contacts on Single-Walled Carbon Nanotubes
de Pablo et al. Advanced Materials 12, 573-576 (2000)
