Chemical force microscopy: probing chemical origin of interfacial forces and adhesion

Chemical Force Microscopy: Probing Chemical Origin of Interfacial Forces and Adhesion

Chemical Force Microscopy Nanoscale Probing of Fundamental Chemical Interactions

Intermolecular forces impact a wide spectrum of problems in condensed phases: from molecular recognition, self-assembly, and protein folding at the molecular and nanometer scale, to interfacial fracture, friction, and lubrication at a macroscopic length scale. Understanding these phenomena, regardless of the length scale, requires fundamental knowledge of the magnitude and range of underlying w...

Probing Intermolecular Forces and Potentials with Magnetic Feedback Chemical Force Microscopy

Magnetic feedback chemical force microscopy (MF-CFM) was used to map the complete force profile between hydroxyland carboxyl-terminated self-assembled monolayers (SAMs) in aqueous solution. The snap-to-contact and snap-out instabilities intrinsic to force-displacement measurements made with weak spring constant cantilevers were eliminated by using a cantilever with an attached magnetic particle...

Measuring interfacial and adhesion forces between bacteria and mineral surfaces with biological force microscopy

Interfacial and adhesion forces between living, unmodified bacterial cells (Escherichia coli) and mineral surfaces (muscovite, goethite, and graphite) have been directly measured in aqueous solution using a force microscope. Native cells are linked to a force-sensing probe that is used to characterize interactions as a mineral surface approaches, makes contact with, and withdraws from bacteria ...

Nanoscale chemical imaging by photoinduced force microscopy.

Correlating spatial chemical information with the morphology of closely packed nanostructures remains a challenge for the scientific community. For example, supramolecular self-assembly, which provides a powerful and low-cost way to create nanoscale patterns and engineered nanostructures, is not easily interrogated in real space via existing nondestructive techniques based on optics or electron...