Add to ORKGTwo models are presented for quantitative charge imaging with an atomic-force microscope. The first is appropriate for noncontact mode and the second for intermittent contact (tapping) mode imaging. Different forms for the contact force are used to demonstrate that quantitative charge imaging is possible without precise knowledge of the contact interaction. From the models, estimates of the best charge sensitivity of an unbiased standard atomic-force microscope cantilever are found to be on the order of a few electrons
An atomic-force microscope (AFM) is used to locally inject, detect, and quantify the amount and loca...
International audienceUltrahigh vacuum atomic force microscopy has been used to inject and detect ch...
Color poster with text, diagrams, images, and graphs.An Atomic Force Microscope, or AFM, is a resear...
In this thesis, four major results novel to the field of NC-AFM, are introduced. First, the force cu...
Conducting-tip atomic force microscopy (AFM) has been used to electronically probe silicon nanocryst...
AbstractAn experimental approach for producing relative charge density maps of biological surfaces u...
International audienceWe discuss the influence of short-range electrostatic forces, so called dipola...
Adopting the empirical silicon interatomic potential of Stillinger and Weber, we investigate the eff...
Dynamic force curves of an atomic force microscope in the presence of attractive van der Waals and e...
In a recent publication [N. Kocic et al., Nano Lett. 15, 4406 (2015)], it was shown that gating of m...
Techniques derived from the near-field microscopies and particularly the Atomic Force Microscopy (A...
We present a method for situ characterization of the tip shape in atomic force microscopes that can ...
The atomic force microscope (AFM) is a powerful tool to image surfaces and surface adsorbates with a...
International audienceElectrostatic nanopatterning of electret thin films by atomic force microscopy...
Traditionally, atomic force microscopy (AFM) experiments are conducted at tip-sample distances where...
An atomic-force microscope (AFM) is used to locally inject, detect, and quantify the amount and loca...
International audienceUltrahigh vacuum atomic force microscopy has been used to inject and detect ch...
Color poster with text, diagrams, images, and graphs.An Atomic Force Microscope, or AFM, is a resear...
In this thesis, four major results novel to the field of NC-AFM, are introduced. First, the force cu...
Conducting-tip atomic force microscopy (AFM) has been used to electronically probe silicon nanocryst...
AbstractAn experimental approach for producing relative charge density maps of biological surfaces u...
International audienceWe discuss the influence of short-range electrostatic forces, so called dipola...
Adopting the empirical silicon interatomic potential of Stillinger and Weber, we investigate the eff...
Dynamic force curves of an atomic force microscope in the presence of attractive van der Waals and e...
In a recent publication [N. Kocic et al., Nano Lett. 15, 4406 (2015)], it was shown that gating of m...
Techniques derived from the near-field microscopies and particularly the Atomic Force Microscopy (A...
We present a method for situ characterization of the tip shape in atomic force microscopes that can ...
The atomic force microscope (AFM) is a powerful tool to image surfaces and surface adsorbates with a...
International audienceElectrostatic nanopatterning of electret thin films by atomic force microscopy...
Traditionally, atomic force microscopy (AFM) experiments are conducted at tip-sample distances where...
An atomic-force microscope (AFM) is used to locally inject, detect, and quantify the amount and loca...
International audienceUltrahigh vacuum atomic force microscopy has been used to inject and detect ch...
Color poster with text, diagrams, images, and graphs.An Atomic Force Microscope, or AFM, is a resear...