Dynamic force microscopy in fluid

Low-amplitude dynamic force microscopy can operate in a non-contact mode, s ensing changes in liquid properties near a surface, Operation of the micros cope in water at the higher amplitudes often required for stable imaging ha s been investigated. When driven by direct application of a force to the ti p, the microscope is stable over a wide range of operating frequencies. At low frequency, the interfacial stiffness extracted from approach curves is found to be of the order of 1 N m(-1) on first contact, which is indicative of imaging: via a compressed liquid layer. Measurements of the spectral re sponse of the cantilever and numerical simulations confirm this and show th at viscous damping at the surface also plays a role. Copyright (C) 1999 Joh n Wiley St Sons, Ltd.