Understanding modulation of water molecule slippage along graphene surfaces is crucial for many promising applications of two-dimensional materials. Here, we examine normal and shear forces on supported single-layer graphene using atomic force microscopy and find that the electrolyte composition affects the molecular slippage of nanometer thick films of aqueous electrolytes along the graphene surface. In light of the shear-assisted thermally activated theory, water molecules along the graphene plane are very mobile when subjected to shear. However, upon addition of an electrolyte, the cations can make water stick to graphene, while ion-specific and concentration effects are present. Recognizing the tribological and tribochemical utility of ...
This article addresses the much debated question whether the degree of hydrophobicity of single-laye...
Friction is one of the main sources of dissipation at liquid water/solid interfaces. Despite recent ...
Recently, the tribological properties of graphene have been intensively examined for potential appli...
Understanding modulation of water molecule slippage along graphene surfaces is crucial for many prom...
Trabajo presentado en la conferencia Fuerzas y Túnel (FyT2016), celebrada en Girona del 5 al 7 de se...
While mechanical and frictional properties of graphene in air have been extensively studied, graphen...
The sliding of a sharp nanotip on graphene completely immersed in water is investigated by molecular...
While mechanical and frictional properties of graphene in air have been extensively studied, graphen...
Nanoscale friction often exhibits hysteresis when load is increased (loading) and then decreased (un...
The lubricating properties of water have been discussed extensively for millennia. Water films can e...
Graphene is efficient to provide ultralow friction after the formation of an incommensurate interfac...
The functionality of graphene as lubricant material is affected by extrinsic factors, such as the fi...
Nanoscale friction behavior on hydrophilic surfaces (HS), influenced by a probe gliding on a confine...
© 2021 Author(s).The atomic scale friction properties of water layers are a highly important subject...
We study the effect of atomic-scale surface-lubricant interactions on nanoscale boundary-lubricated ...
This article addresses the much debated question whether the degree of hydrophobicity of single-laye...
Friction is one of the main sources of dissipation at liquid water/solid interfaces. Despite recent ...
Recently, the tribological properties of graphene have been intensively examined for potential appli...
Understanding modulation of water molecule slippage along graphene surfaces is crucial for many prom...
Trabajo presentado en la conferencia Fuerzas y Túnel (FyT2016), celebrada en Girona del 5 al 7 de se...
While mechanical and frictional properties of graphene in air have been extensively studied, graphen...
The sliding of a sharp nanotip on graphene completely immersed in water is investigated by molecular...
While mechanical and frictional properties of graphene in air have been extensively studied, graphen...
Nanoscale friction often exhibits hysteresis when load is increased (loading) and then decreased (un...
The lubricating properties of water have been discussed extensively for millennia. Water films can e...
Graphene is efficient to provide ultralow friction after the formation of an incommensurate interfac...
The functionality of graphene as lubricant material is affected by extrinsic factors, such as the fi...
Nanoscale friction behavior on hydrophilic surfaces (HS), influenced by a probe gliding on a confine...
© 2021 Author(s).The atomic scale friction properties of water layers are a highly important subject...
We study the effect of atomic-scale surface-lubricant interactions on nanoscale boundary-lubricated ...
This article addresses the much debated question whether the degree of hydrophobicity of single-laye...
Friction is one of the main sources of dissipation at liquid water/solid interfaces. Despite recent ...
Recently, the tribological properties of graphene have been intensively examined for potential appli...