Friction is one of the main sources of dissipation at liquid water/solid interfaces. Despite recent progress, a detailed understanding of water/solid friction in connection with the structure and energetics of the solid surface is lacking. Here, we show for the first time that <i>ab initio</i> molecular dynamics can be used to unravel the connection between the structure of nanoscale water and friction for liquid water in contact with graphene and with hexagonal boron nitride. We find that although the interface presents a very similar structure between the two sheets, the friction coefficient on boron nitride is ≈3 times larger than that on graphene. This comes about because of the greater corrugation of the energy landscape on boron nitri...
Confined water can have properties dramatically different from bulk water, and these properties can ...
We performed molecular dynamics simulation for comprehensive analysis of friction between bilayer of...
The wonder material graphene and its inorganic analogue, hexagonal boron nitride, have attracted wid...
Despite essentially identical crystallography and equilibrium structuring of water, nanoscopic chann...
Defects are inevitably present in nanofluidic systems, yet the role they play in nanofluidic transpo...
Structural, dynamical, and dipolar properties of water molecules in nanoconfinement between either t...
We investigate the wetting and frictional behavior of polar (water and ethylene glycol) and nonpolar...
Despite relevance to water purification and renewable energy conversion membranes, the molecular mec...
In this study, molecular dynamics simulations are used to investigate water transport mechanisms thr...
The lubricating properties of water have been discussed extensively for millennia. Water films can e...
International audienceIn this work, molecular dynamics simulations were used to determine the surfac...
International audienceThe flow of water in carbon nanochannels has defied understanding thus far, wi...
International audienceThe recent emergence of nanofluidics has highlighted the exceptional propertie...
Born–Oppenheim quantum molecular dynamics (QMD) simulations are performed to investigate wetting, di...
Trabajo presentado en la conferencia Fuerzas y Túnel (FyT2016), celebrada en Girona del 5 al 7 de se...
Confined water can have properties dramatically different from bulk water, and these properties can ...
We performed molecular dynamics simulation for comprehensive analysis of friction between bilayer of...
The wonder material graphene and its inorganic analogue, hexagonal boron nitride, have attracted wid...
Despite essentially identical crystallography and equilibrium structuring of water, nanoscopic chann...
Defects are inevitably present in nanofluidic systems, yet the role they play in nanofluidic transpo...
Structural, dynamical, and dipolar properties of water molecules in nanoconfinement between either t...
We investigate the wetting and frictional behavior of polar (water and ethylene glycol) and nonpolar...
Despite relevance to water purification and renewable energy conversion membranes, the molecular mec...
In this study, molecular dynamics simulations are used to investigate water transport mechanisms thr...
The lubricating properties of water have been discussed extensively for millennia. Water films can e...
International audienceIn this work, molecular dynamics simulations were used to determine the surfac...
International audienceThe flow of water in carbon nanochannels has defied understanding thus far, wi...
International audienceThe recent emergence of nanofluidics has highlighted the exceptional propertie...
Born–Oppenheim quantum molecular dynamics (QMD) simulations are performed to investigate wetting, di...
Trabajo presentado en la conferencia Fuerzas y Túnel (FyT2016), celebrada en Girona del 5 al 7 de se...
Confined water can have properties dramatically different from bulk water, and these properties can ...
We performed molecular dynamics simulation for comprehensive analysis of friction between bilayer of...
The wonder material graphene and its inorganic analogue, hexagonal boron nitride, have attracted wid...