In this paper, the contact angle hysteresis (CAH) of nanodroplets on both rigid and flexible substrates with different wettabilities was studied using molecular dynamics (MD) simulations. The critical shear stress (CSS) that determines the motion of the contact line (CL) was investigated. A theoretical correlation between CAH and CSS was proposed. Both CAH and CSS reflect the energy dissipation at the CL of the droplet in response to the exerted force. MD results of CAH are qualitatively consistent with the theoretical model. Simulation results also show that, for the same liquid-solid interactions, CAH on the flexible substrate is larger than that on the rigid substrate. These findings aim to enhance our understanding of the mechanism of t...
We have studied the contact angle of glycerol nanodroplets on a partial wetting substrate using the ...
International audienceThe contact angle of a liquid drop moving on a real solid surface depends on t...
The dynamic behavior of a partially wetting polymer droplet driven over a nanostructured interface i...
We quantify some of the effects of patterned nanoscale surface texture on static contact angles, dyn...
We use molecular dynamics (MD) simulations to investigate the dynamic wetting of nanoscale water dro...
We report molecular dynamics (MD) simulations of the dynamic wetting of nanoscale droplets on moving...
The nanostructured surfaces have attracted much attention owing to its possibility of changing surfa...
The motion of the three-phase contact line between two immiscible fluids and a solid surface arises ...
The information regarding the wetting characteristic is important in various aspects of surface scie...
We present results of Molecular Dynamics (MD) calculations on the behavior of liquid nanodroplets on...
Understanding the complexities associated with contact line dynamics on chemically heterogeneous and...
In this work we have performed molecular dynamics simulations of the room temperature ionic-liquid 1...
In this work, we investigate the dynamic advancing and receding contact angles, and the mechanisms o...
Using large scale molecular dynamics simulations, we study in detail the impact of nanometer droplet...
Abstract. We present results of Molecular Dynamics (MD) calculations on the behavior of liquid nan-o...
We have studied the contact angle of glycerol nanodroplets on a partial wetting substrate using the ...
International audienceThe contact angle of a liquid drop moving on a real solid surface depends on t...
The dynamic behavior of a partially wetting polymer droplet driven over a nanostructured interface i...
We quantify some of the effects of patterned nanoscale surface texture on static contact angles, dyn...
We use molecular dynamics (MD) simulations to investigate the dynamic wetting of nanoscale water dro...
We report molecular dynamics (MD) simulations of the dynamic wetting of nanoscale droplets on moving...
The nanostructured surfaces have attracted much attention owing to its possibility of changing surfa...
The motion of the three-phase contact line between two immiscible fluids and a solid surface arises ...
The information regarding the wetting characteristic is important in various aspects of surface scie...
We present results of Molecular Dynamics (MD) calculations on the behavior of liquid nanodroplets on...
Understanding the complexities associated with contact line dynamics on chemically heterogeneous and...
In this work we have performed molecular dynamics simulations of the room temperature ionic-liquid 1...
In this work, we investigate the dynamic advancing and receding contact angles, and the mechanisms o...
Using large scale molecular dynamics simulations, we study in detail the impact of nanometer droplet...
Abstract. We present results of Molecular Dynamics (MD) calculations on the behavior of liquid nan-o...
We have studied the contact angle of glycerol nanodroplets on a partial wetting substrate using the ...
International audienceThe contact angle of a liquid drop moving on a real solid surface depends on t...
The dynamic behavior of a partially wetting polymer droplet driven over a nanostructured interface i...