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We report on a remarkable image contrast reversal in noncontact atomic force microscope (NC-AFM) imaging of nanosized three-dimensional (3D) particles. We show that the image contrast of such 3D particles can switch from positive to negative as a function of NC-AFM imaging conditions and this occurs during, both, in situ ultrahigh vacuum imaging and imaging in air. Our results indicate that the contrast reversal can arise from a tip-sample interaction force-gradient-dependent instability of the NC-AFM feedback loop. Exploiting the above instability to induce selective tip-sample contact, we propose and demonstrate a protocol for the controlled nanomanipulation of 5 nm diameter gold particles, in air at room temperature using the NC-AFM. The contrast reversal phenomenon is proposed to be universal, suggesting its potential applicability to nanomanipulation in a variety of materials systems. © 1998 American Vacuum Society.
Journal of Vacuum Science & Technology A: Vacuum, Surfaces, and Films
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