Add to ORKGThe influence of nanoscale topography and chemical composition on microfriction has been studied at different humidities. Structured surfaces exhibit lower friction than smooth ones. Among the structured surfaces, the crater-like morphologies show lower friction than pyramid-like morphologies. No significant differences in friction were observed when varying the roughness of the crater-like structures. On pyramid-like morphologies, friction increases with decreasing roughness. Additional hydrophobization of surface nanostructures results in only small reductions in frictio
Surface morphology has been demonstrated to influence the tribological properties at different scale...
Surface morphology has been demonstrated to influence the tribological properties at different scale...
The velocity and humidity dependence of nanoscopic sliding friction has been studied on CrN and diam...
The influence of nanoscale topography and chemical composition on microfriction has been studied at ...
This study reports the effect of nanoscaled surface structure of some hard coatings on the (micro-) ...
The morphology of hydrophobic CF4 plasma fluorinated polybutadiene surfaces has been characterised u...
The wetting of a material can be tuned by changing the roughness on its surface. Recent advances in ...
The studies in this thesis deal with wetting research. Wetting is a topic studied over more than 200...
A molecular modeling methodology is presented to analyze the wetting behavior of natural surfaces ex...
Surfaces with special wettability have the potential to drastically change the way we use technology...
Surface topography outlines material's interaction with its immediate environment. Herein, a series ...
Wetting is a phenomenon which occurs when a droplet spreads out on a surface. The extreme behaviour ...
International audienceWhen deposited on a hydrophobic rough surface, a small water drop looks like a...
With the recent important development of microfluidicsystems, miniaturization of flow devices has be...
The water repellency of a surface is principally governed by a combination of its chemical nature (...
Surface morphology has been demonstrated to influence the tribological properties at different scale...
Surface morphology has been demonstrated to influence the tribological properties at different scale...
The velocity and humidity dependence of nanoscopic sliding friction has been studied on CrN and diam...
The influence of nanoscale topography and chemical composition on microfriction has been studied at ...
This study reports the effect of nanoscaled surface structure of some hard coatings on the (micro-) ...
The morphology of hydrophobic CF4 plasma fluorinated polybutadiene surfaces has been characterised u...
The wetting of a material can be tuned by changing the roughness on its surface. Recent advances in ...
The studies in this thesis deal with wetting research. Wetting is a topic studied over more than 200...
A molecular modeling methodology is presented to analyze the wetting behavior of natural surfaces ex...
Surfaces with special wettability have the potential to drastically change the way we use technology...
Surface topography outlines material's interaction with its immediate environment. Herein, a series ...
Wetting is a phenomenon which occurs when a droplet spreads out on a surface. The extreme behaviour ...
International audienceWhen deposited on a hydrophobic rough surface, a small water drop looks like a...
With the recent important development of microfluidicsystems, miniaturization of flow devices has be...
The water repellency of a surface is principally governed by a combination of its chemical nature (...
Surface morphology has been demonstrated to influence the tribological properties at different scale...
Surface morphology has been demonstrated to influence the tribological properties at different scale...
The velocity and humidity dependence of nanoscopic sliding friction has been studied on CrN and diam...