Add to ORKGThe scientific community needs a rapid and reliable way of accurately determining the stiffness of atomic-force microscopy cantilevers. We have compared the experimentally determined values of stiffness for ten cantilever probes using four different methods. For rectangular silicon cantilever beams of well defined geometry, the approaches all yield values within 17 % of the manufacturer’s nominal stiffness. One of the methods is new, based on the acquisition and analysis of thermal distribution functions of the oscillator’s amplitude fluctuations. We evaluate this method in comparison to the three others and recommend it for its ease of use and broad applicability. 1
The spring constant of an atomic force microscope cantilever is often needed for quantitative measur...
International audienceThe use of atomic force microscopy in nanomechanical measurements requires acc...
The measurement of cantilever parameters is an essential part of performing a calibrated measurement...
Item does not contain fulltextSingle-molecule force spectroscopy studies performed by Atomic Force M...
<p>This research presents new calibration techniques for the characterization of atomic force micro...
Single-molecule force spectroscopy studies performed by Atomic Force Microscopes (AFMs) strongly rel...
This work presents a method for force calibration of rectangular atomic force microscopy (AFM) micro...
Atomic force microscopy (AFM) employs microfabricated cantilevers as sensing elements, which are use...
Variations in the mechanical properties of nominally identical V-shaped atomic force microscope (AFM...
An atomic force microscope can acquire both topographic and materials-related data, but with cantile...
A simplified method for calibrating atomic force microscope cantilevers was recently proposed by Sad...
Different methods for the determination of cantilever properties in non-contact atomic force microsc...
Quantitative studies of material properties and interfaces using the atomic force microscope (AFM) h...
Measurement of force on a micro- or nano-Newton scale is important when exploring the mechanical pro...
The atomic force microscope (AFM) can provide qualitative information by numerous imaging modes, but...
The spring constant of an atomic force microscope cantilever is often needed for quantitative measur...
International audienceThe use of atomic force microscopy in nanomechanical measurements requires acc...
The measurement of cantilever parameters is an essential part of performing a calibrated measurement...
Item does not contain fulltextSingle-molecule force spectroscopy studies performed by Atomic Force M...
<p>This research presents new calibration techniques for the characterization of atomic force micro...
Single-molecule force spectroscopy studies performed by Atomic Force Microscopes (AFMs) strongly rel...
This work presents a method for force calibration of rectangular atomic force microscopy (AFM) micro...
Atomic force microscopy (AFM) employs microfabricated cantilevers as sensing elements, which are use...
Variations in the mechanical properties of nominally identical V-shaped atomic force microscope (AFM...
An atomic force microscope can acquire both topographic and materials-related data, but with cantile...
A simplified method for calibrating atomic force microscope cantilevers was recently proposed by Sad...
Different methods for the determination of cantilever properties in non-contact atomic force microsc...
Quantitative studies of material properties and interfaces using the atomic force microscope (AFM) h...
Measurement of force on a micro- or nano-Newton scale is important when exploring the mechanical pro...
The atomic force microscope (AFM) can provide qualitative information by numerous imaging modes, but...
The spring constant of an atomic force microscope cantilever is often needed for quantitative measur...
International audienceThe use of atomic force microscopy in nanomechanical measurements requires acc...
The measurement of cantilever parameters is an essential part of performing a calibrated measurement...