We study the spontaneous wetting of liquid drops on FCC solid substrates using large-scale molecular dynamics simulations. By varying the solid lattice parameter, five different drop/solid dynamic systems are investigated. It is shown that the results are in agreement with the molecular-kinetic theory (MKT) describing the dynamics of wetting. Moreover, it is established that the microscopic parameters resulting from fits using the MKT, the so-called molecular jump frequency at equilibrium and the jump length, correspond to the values that can be estimated directly from the simulations. This agreement strongly supports the validity of the MKT at the microscopic scale.status: publishe
The wettability of hydrophobic surfaces and the dynamic behaviors of droplets impacting on hydrophob...
We report molecular dynamics (MD) simulations of the dynamic wetting of nanoscale droplets on moving...
We propose a new theoretical model of dynamic wetting for systems comprising two immiscible liquids,...
Wetting at equilibrium is reviewed in brief, and it is then suggested that a wider class of nonequil...
The molecular-kinetic theory (MKT) of dynamic wetting was formulated almost 50 years ago. It explain...
We report an experimental study of the dynamics of spontaneous spreading of aqueous glycerol drops o...
International audienceAll authors contributed equally. 2 Hypothesis: That the behavior of sliding dr...
In our daily life and many of industrial applications, we usually find fluids which interact with so...
The spreading of a microscopic nonvolatile liquid drop on a homogeneous solid substrate has been stu...
Liquid drops start spreading directly after coming into contact with a partially wetting substrate. ...
We present new spreading-drop data obtained over four orders of time and apply our new analysis tool...
Nanoscale drops on structured walls with which they interact through dispersive forces are investiga...
It is known that the spreading rates of small liquid drops over a solid surface exhibit a strong dep...
We compare numerical and experimental results exploring the behaviour of liquid drops moving across ...
We perform a joint numerical and experimental study to systematically characterize the motion of 30 ...
The wettability of hydrophobic surfaces and the dynamic behaviors of droplets impacting on hydrophob...
We report molecular dynamics (MD) simulations of the dynamic wetting of nanoscale droplets on moving...
We propose a new theoretical model of dynamic wetting for systems comprising two immiscible liquids,...
Wetting at equilibrium is reviewed in brief, and it is then suggested that a wider class of nonequil...
The molecular-kinetic theory (MKT) of dynamic wetting was formulated almost 50 years ago. It explain...
We report an experimental study of the dynamics of spontaneous spreading of aqueous glycerol drops o...
International audienceAll authors contributed equally. 2 Hypothesis: That the behavior of sliding dr...
In our daily life and many of industrial applications, we usually find fluids which interact with so...
The spreading of a microscopic nonvolatile liquid drop on a homogeneous solid substrate has been stu...
Liquid drops start spreading directly after coming into contact with a partially wetting substrate. ...
We present new spreading-drop data obtained over four orders of time and apply our new analysis tool...
Nanoscale drops on structured walls with which they interact through dispersive forces are investiga...
It is known that the spreading rates of small liquid drops over a solid surface exhibit a strong dep...
We compare numerical and experimental results exploring the behaviour of liquid drops moving across ...
We perform a joint numerical and experimental study to systematically characterize the motion of 30 ...
The wettability of hydrophobic surfaces and the dynamic behaviors of droplets impacting on hydrophob...
We report molecular dynamics (MD) simulations of the dynamic wetting of nanoscale droplets on moving...
We propose a new theoretical model of dynamic wetting for systems comprising two immiscible liquids,...