Scanning force and friction microscopy

Compositional mapping of a polyester film surface, Mylar D, was performed utilizing a combination of scanning force microscopy techniques. Lateral force microscopy revealed that additives embedded in the surface had a lower coefficient of friction than the surrounding polymeric material. Force-volum

Friction between sliding bodies is the result of the collective and quite possibly interdependent mechanical behavior of a multitude of small contacts between shearing surfaces, which are constantly being formed, deformed, and ruptured. The time scales for these local transformations range from the

Conventional friction force microscopy (FFM) is widely used for tribological studies of engineering surfaces. It is, however, difficult to separate friction forces resulting from interactions dependent upon interfacial material properties from surface topography-induced lateral forces. We have devel

The highlight of the past year is the unfolding and refolding of the muscle protein titin in the atomic force microscope. A related highlight in the intersection between experiment and theory is a recent review of the effects of molecular forces on biochemical kinetics. Other advances in scanning pr