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This research was carried out at ETH Zurich. It received an ETH Medal and was a runner-up for the 2011 Materials Research Prize. A self-cleaning surface is a surface that can be cleaned by a gentle rinsing with water without the use of detergents or mechanical force (wiping). Such an effect is only observed on very rough, usually hydrophobic surfaces, where the drop sits on top of surface features like a fakir on a bed of nails. In many industries, such as construction, design, and even medical applications, a self-cleaning surface would seem of great advantage. This work gives an easy-to-read…mehr

Produktbeschreibung
This research was carried out at ETH Zurich. It received an ETH Medal and was a runner-up for the 2011 Materials Research Prize. A self-cleaning surface is a surface that can be cleaned by a gentle rinsing with water without the use of detergents or mechanical force (wiping). Such an effect is only observed on very rough, usually hydrophobic surfaces, where the drop sits on top of surface features like a fakir on a bed of nails. In many industries, such as construction, design, and even medical applications, a self-cleaning surface would seem of great advantage. This work gives an easy-to-read introduction into wetting phenomena on rough surfaces, pointing out the challenges researchers face when developing a self-cleaning surface. Two key aspects relevant for the lifetime of the self-cleaning effect were investigated: first, what happens to the effect when the hydrophobic nature of the surface chemistry decreases and second, how the number and, to a certain extent, the shape of surface-drop contact points influence the contact angle and the mobility of the water drop.
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Autorenporträt
Doris Fopp-Spori studied material science at ETH Zurich where she developed a strong interest in surface science. During her PhD work, also at the ETH Zurich, she immersed herself in the study of wetting phenomena on rough surfaces with special focus on self-cleaning surfaces.