Add to ORKGUltralow friction can be achieved with 2D materials, particularly graphene and MoS2. The nanotribological properties of these different 2D materials have been measured in previous atomic force microscope (AFM) experiments sequentially, precluding immediate and direct comparison of their frictional behavior. Here, friction is characterized at the nanoscale using AFM experiments with the same tip sliding over graphene, MoS2, and a graphene/MoS2 heterostructure in a single measurement, repeated hundreds of times, and also measured with a slowly varying normal force. The same material systems are simulated using molecular dynamics (MD) and analyzed using density functional theory (DFT) calculations. In both experiments and MD simulations, graph...
Nanoscale friction on two-dimensional (2D) materials is closely associated with their mechanical, el...
We performed molecular dynamics simulation for comprehensive analysis of friction between bilayer of...
We performed molecular dynamics simulation for comprehensive analysis of friction between bilayer of...
Two-dimensional (2D) layered materials with atomic- to nano-scale thickness have a wide variety of a...
Atomically thin graphene is an ideal model system for studying nanoscale friction due to its intrins...
Recently, the tribological properties of graphene have been intensively examined for potential appli...
Two-dimensional (2D) materials have unique friction properties that are different from their 3D coun...
The tribological properties of two-dimensional (2D) atomic layers are quite different from three-dim...
Nanoscale friction often exhibits hysteresis when load is increased (loading) and then decreased (un...
The 2D materials exhibit excellent tribological properties due to their weak inter-plane interaction...
Nanoscale friction on two-dimensional (2D) materials is closely associated with their mechanical, el...
Despite extensive research on the tribological properties of MoS2, the frictional characteristics of...
Despite extensive research on the tribological properties of MoS2, the frictional characteristics of...
Frictional behaviors of graphene, which have been generally investigated on elastic or rigid substra...
As the investigation of materials at nano scale become possible with today's technology it is observ...
Nanoscale friction on two-dimensional (2D) materials is closely associated with their mechanical, el...
We performed molecular dynamics simulation for comprehensive analysis of friction between bilayer of...
We performed molecular dynamics simulation for comprehensive analysis of friction between bilayer of...
Two-dimensional (2D) layered materials with atomic- to nano-scale thickness have a wide variety of a...
Atomically thin graphene is an ideal model system for studying nanoscale friction due to its intrins...
Recently, the tribological properties of graphene have been intensively examined for potential appli...
Two-dimensional (2D) materials have unique friction properties that are different from their 3D coun...
The tribological properties of two-dimensional (2D) atomic layers are quite different from three-dim...
Nanoscale friction often exhibits hysteresis when load is increased (loading) and then decreased (un...
The 2D materials exhibit excellent tribological properties due to their weak inter-plane interaction...
Nanoscale friction on two-dimensional (2D) materials is closely associated with their mechanical, el...
Despite extensive research on the tribological properties of MoS2, the frictional characteristics of...
Despite extensive research on the tribological properties of MoS2, the frictional characteristics of...
Frictional behaviors of graphene, which have been generally investigated on elastic or rigid substra...
As the investigation of materials at nano scale become possible with today's technology it is observ...
Nanoscale friction on two-dimensional (2D) materials is closely associated with their mechanical, el...
We performed molecular dynamics simulation for comprehensive analysis of friction between bilayer of...
We performed molecular dynamics simulation for comprehensive analysis of friction between bilayer of...