[[abstract]]This paper investigates the nano-fluidic contact angle measurement by performing molecular dynamics simulations. The contact angle between a nano-water droplet and a platinum surface is important for the design of the porous catalyst layer in low-temperature fuel cells. The measurement can generally be conducted by an atomic force microscope (AFM). However, the interaction force between the water droplet and the probe tip of the microscope may influence the measurement results. This paper employs the molecular dynamics technique to investigate the offset of the contact angle measurement. Calculations are in two sets, one simulated the water molecules clustering on the platinum surface, and the other involved the AFM measurement ...
The nanostructured surfaces have attracted much attention owing to its possibility of changing surfa...
Atomic force microscopy is one of the few techniques that allow analysis of biological recognition p...
In this work, we investigate the dynamic advancing and receding contact angles, and the mechanisms o...
The information regarding the wetting characteristic is important in various aspects of surface scie...
It is important to find contact angle for a liquid to understand its wetting properties, capillarity...
International audienceThe interaction between an AFM probe and a thin water film deposited over a fl...
International audienceWettability is the ability of the liquid to contact with the solid surface at ...
We quantify some of the effects of patterned nanoscale surface texture on static contact angles, dyn...
In this paper, the contact angle hysteresis (CAH) of nanodroplets on both rigid and flexible substra...
The aim of this study is to link polytetrafluoroethylene (PTFE) surface characteristics with its wet...
Atomic force microscopy (AFM) can be used to measure surface properties at the nanoscale. However, i...
Atomic force microscopy (AFM) can be used to measure surface properties at the nanoscale. However, i...
Wettability of the solid surface is a very important property in the micro/nanoscale thermal fluidic...
The force between two interacting particles as a function of distance is one of the most fundamental...
The aim of this study is to link polytetrafluoroethylene (PTFE) surface characteristics with its wet...
The nanostructured surfaces have attracted much attention owing to its possibility of changing surfa...
Atomic force microscopy is one of the few techniques that allow analysis of biological recognition p...
In this work, we investigate the dynamic advancing and receding contact angles, and the mechanisms o...
The information regarding the wetting characteristic is important in various aspects of surface scie...
It is important to find contact angle for a liquid to understand its wetting properties, capillarity...
International audienceThe interaction between an AFM probe and a thin water film deposited over a fl...
International audienceWettability is the ability of the liquid to contact with the solid surface at ...
We quantify some of the effects of patterned nanoscale surface texture on static contact angles, dyn...
In this paper, the contact angle hysteresis (CAH) of nanodroplets on both rigid and flexible substra...
The aim of this study is to link polytetrafluoroethylene (PTFE) surface characteristics with its wet...
Atomic force microscopy (AFM) can be used to measure surface properties at the nanoscale. However, i...
Atomic force microscopy (AFM) can be used to measure surface properties at the nanoscale. However, i...
Wettability of the solid surface is a very important property in the micro/nanoscale thermal fluidic...
The force between two interacting particles as a function of distance is one of the most fundamental...
The aim of this study is to link polytetrafluoroethylene (PTFE) surface characteristics with its wet...
The nanostructured surfaces have attracted much attention owing to its possibility of changing surfa...
Atomic force microscopy is one of the few techniques that allow analysis of biological recognition p...
In this work, we investigate the dynamic advancing and receding contact angles, and the mechanisms o...