Friction occurs through a complex set of processes that act together to resist relative motion. However, despite this complexity, friction is typically described using a simple phenomenological expression that relates normal and lateral forces via a coefficient, the friction coefficient. This one parameter encompasses multiple, sometimes competing, effects. To better understand the origins of friction, here, we study a chemically and topographically well-defined interface between silica and graphite with a single-layer graphene step edge. We identify the separate contributions of physical and chemical processes to friction and show that a single friction coefficient can be separated into two terms corresponding to these effects. The finding...
The tribological properties of two-dimensional (2D) atomic layers are quite different from three-dim...
The friction of graphene on mica was studied using lateral force microscopy. We observed that interc...
A lack of understanding of the fundamental mechanisms governing atomic-scale adhesion and friction c...
Friction occurs through a complex set of processes that act together to resist relative motion. Howe...
Atomic force microscopy experiments and molecular dynamics simulations show that friction between a ...
Atomic force microscopy experiments and molecular dynamics simulations show that friction between a ...
Graphite and other lamellar materials are used as dry lubricants for macroscale metallic sliding com...
This Letter reports that the atomic corrugation of the surface can affect nanoscale interfacial adhe...
This work covers two closely related topics: a theoretical study on the origins of friction and an e...
Graphite is widely used as a solid lubricant due to its layered structure, which enables ultralow fr...
Knowledge of the snubbing effect in atomic scale friction is essential for understanding the interac...
Long neglected by physicists, the study of friction’s atomic-level origins, or nanotribology, indica...
Hydroxyl groups play an important role in friction of graphene oxides. In this paper, the influence ...
Nanoscale friction often exhibits hysteresis when load is increased (loading) and then decreased (un...
The article focuses on a research that explains the variation of friction in lubricated system by us...
The tribological properties of two-dimensional (2D) atomic layers are quite different from three-dim...
The friction of graphene on mica was studied using lateral force microscopy. We observed that interc...
A lack of understanding of the fundamental mechanisms governing atomic-scale adhesion and friction c...
Friction occurs through a complex set of processes that act together to resist relative motion. Howe...
Atomic force microscopy experiments and molecular dynamics simulations show that friction between a ...
Atomic force microscopy experiments and molecular dynamics simulations show that friction between a ...
Graphite and other lamellar materials are used as dry lubricants for macroscale metallic sliding com...
This Letter reports that the atomic corrugation of the surface can affect nanoscale interfacial adhe...
This work covers two closely related topics: a theoretical study on the origins of friction and an e...
Graphite is widely used as a solid lubricant due to its layered structure, which enables ultralow fr...
Knowledge of the snubbing effect in atomic scale friction is essential for understanding the interac...
Long neglected by physicists, the study of friction’s atomic-level origins, or nanotribology, indica...
Hydroxyl groups play an important role in friction of graphene oxides. In this paper, the influence ...
Nanoscale friction often exhibits hysteresis when load is increased (loading) and then decreased (un...
The article focuses on a research that explains the variation of friction in lubricated system by us...
The tribological properties of two-dimensional (2D) atomic layers are quite different from three-dim...
The friction of graphene on mica was studied using lateral force microscopy. We observed that interc...
A lack of understanding of the fundamental mechanisms governing atomic-scale adhesion and friction c...
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