Add to ORKGThe properties of confined liquids are of fundamental interest for understanding the limitations of conventional continuum hydrodynamics on small scales. In this article we present accurate measurements of oscillatory solvation forces that arise due to confinement of octamethylcyclotetrasiloxane between an AFM tip and a highly oriented pyrolytic graphite (HOPG) surface. To measure these forces the cantilever was driven at a very small amplitude (<<1 nm) with a home-built cantilever holder. We discuss several models that can be used to extract conservative and dissipative forces from the amplitude and phase distance curves
Solid-liquid interfaces are not only omnipresent in our daily lives, but also in many applications i...
The solvation force of squalane confined between a silicon tip and a graphite surface has been measu...
A new type of AFM is presented which allows for direct measurements of nanomechanical properties in ...
We determine conservative and dissipative tip–sample interaction forces from the amplitude and phase...
In this thesis we describe Atomic Force Microscopy (AFM) measurements and Molecular Dynamics (MD) si...
We use atomic force microscopy to measure the distance-dependent solvation forces and the dissipatio...
We present atomic force microscopy (AFM) measurements of the conservative oscillatory solvation forc...
Oscillatory solvation forces in liquid were studied using off-resonance, low-amplitude, sample-modul...
In this paper, we present two types of experimental results. Firstly presented are very good results...
The solvation force profiles of squalane/octamethylcyclotetrasiloxane (OMCTS) mixtures confined betw...
The use of a piezoelectric element (acoustic excitation) to vibrate the base of microcantilevers is ...
We present temperature-dependent atomic force microscope (AFM) measurements in force−distance mode o...
The functionality of atomic force microscopy (AFM) and nanomechanical sensing can be enhanced using ...
Atomic force microscopy has become potent tool for investigating interand intramolecular interaction...
Micro- and nano-scale technologies are enabling scientists to visualize, sense, and measure the worl...
Solid-liquid interfaces are not only omnipresent in our daily lives, but also in many applications i...
The solvation force of squalane confined between a silicon tip and a graphite surface has been measu...
A new type of AFM is presented which allows for direct measurements of nanomechanical properties in ...
We determine conservative and dissipative tip–sample interaction forces from the amplitude and phase...
In this thesis we describe Atomic Force Microscopy (AFM) measurements and Molecular Dynamics (MD) si...
We use atomic force microscopy to measure the distance-dependent solvation forces and the dissipatio...
We present atomic force microscopy (AFM) measurements of the conservative oscillatory solvation forc...
Oscillatory solvation forces in liquid were studied using off-resonance, low-amplitude, sample-modul...
In this paper, we present two types of experimental results. Firstly presented are very good results...
The solvation force profiles of squalane/octamethylcyclotetrasiloxane (OMCTS) mixtures confined betw...
The use of a piezoelectric element (acoustic excitation) to vibrate the base of microcantilevers is ...
We present temperature-dependent atomic force microscope (AFM) measurements in force−distance mode o...
The functionality of atomic force microscopy (AFM) and nanomechanical sensing can be enhanced using ...
Atomic force microscopy has become potent tool for investigating interand intramolecular interaction...
Micro- and nano-scale technologies are enabling scientists to visualize, sense, and measure the worl...
Solid-liquid interfaces are not only omnipresent in our daily lives, but also in many applications i...
The solvation force of squalane confined between a silicon tip and a graphite surface has been measu...
A new type of AFM is presented which allows for direct measurements of nanomechanical properties in ...
