4.5 Article

Stabilized atomic force microscopy imaging in liquids using second harmonic of cantilever motion for setpoint control

Journal

REVIEW OF SCIENTIFIC INSTRUMENTS
Volume 75, Issue 8, Pages 2564-2568

Publisher

AMER INST PHYSICS
DOI: 10.1063/1.1777405

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We present an automated stabilization of the imaging process in tapping mode atomic force microscopy. For biological applications, the requirement of stable imaging conditions to achieve reliable high resolution is contradicted by the necessity to work in solution to ensure biological functionality: thermal and saline variations of the viscosity, in particular when exchanging the solution the sample is surrounded with, strongly affect the cantilever motion rendering the imaging process instable. Using anharmonic contributions in the deflection signal, the amplitude setpoint is controlled to compensate for unavoidable drift in the free oscillation. By this additional feedback, the tip-sample interaction is maintained stable at a low value, making the instrument robust against drift and tolerant to environmental changes. As a delicate test sample, the single ring-mutant of the bacterial chaperonin GroEL from E. coli was imaged. To prove the efficiency of our setup, we show highly stabilized, continuous imaging with minimized user interaction while strong perturbations by exchange of the buffer solution were imposed during the scanning. (C) 2004 American Institute of Physics.

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