Atomic force microscopy experiments and molecular dynamics simulations show that friction between a nanoscale tip and atomically stepped surfaces of graphite is influenced by the environment. The presence of a small amount of water increases friction at atomic steps, but does not strongly influence friction on flat terraces
A lack of understanding of the fundamental mechanisms governing atomic-scale adhesion and friction c...
Using non-equilibrium molecular dynamic simulations, we investigate the effect of adsorbates on nano...
The friction behavior of atomically stepped metal surfaces under contact loading is studied using mo...
Atomic force microscopy experiments and molecular dynamics simulations show that friction between a ...
This Letter reports that the atomic corrugation of the surface can affect nanoscale interfacial adhe...
Abstract Molecular dynamics simulation and atomic force microscopy are used to study the nature of f...
Molecular dynamics simulation and atomic force microscopy are used to study the nature of friction b...
Friction occurs through a complex set of processes that act together to resist relative motion. Howe...
Friction of graphite and diamond surfaces against a sharp silicon nitride tip was measured using a f...
The sliding of a sharp nanotip on graphene completely immersed in water is investigated by molecular...
The sliding of a sharp nanotip on graphene completely immersed in water is investigated by molecular...
Friction has long been the subject of research: the empirical da Vinci-Amontons friction laws have b...
Graphite is widely used as a solid lubricant due to its layered structure, which enables ultralow fr...
Nanoscale friction often exhibits hysteresis when load is increased (loading) and then decreased (un...
A lack of understanding of the fundamental mechanisms governing atomic-scale adhesion and friction c...
A lack of understanding of the fundamental mechanisms governing atomic-scale adhesion and friction c...
Using non-equilibrium molecular dynamic simulations, we investigate the effect of adsorbates on nano...
The friction behavior of atomically stepped metal surfaces under contact loading is studied using mo...
Atomic force microscopy experiments and molecular dynamics simulations show that friction between a ...
This Letter reports that the atomic corrugation of the surface can affect nanoscale interfacial adhe...
Abstract Molecular dynamics simulation and atomic force microscopy are used to study the nature of f...
Molecular dynamics simulation and atomic force microscopy are used to study the nature of friction b...
Friction occurs through a complex set of processes that act together to resist relative motion. Howe...
Friction of graphite and diamond surfaces against a sharp silicon nitride tip was measured using a f...
The sliding of a sharp nanotip on graphene completely immersed in water is investigated by molecular...
The sliding of a sharp nanotip on graphene completely immersed in water is investigated by molecular...
Friction has long been the subject of research: the empirical da Vinci-Amontons friction laws have b...
Graphite is widely used as a solid lubricant due to its layered structure, which enables ultralow fr...
Nanoscale friction often exhibits hysteresis when load is increased (loading) and then decreased (un...
A lack of understanding of the fundamental mechanisms governing atomic-scale adhesion and friction c...
A lack of understanding of the fundamental mechanisms governing atomic-scale adhesion and friction c...
Using non-equilibrium molecular dynamic simulations, we investigate the effect of adsorbates on nano...
The friction behavior of atomically stepped metal surfaces under contact loading is studied using mo...
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