Title :
Learning from nature-polymer surfaces with a nano structure that utilise the Lotus-Effect and clean themselves
Author :
Oles, Markus ; Nun, Edwin ; Dambacher, Gernot ; Schleich, Bemhard
Author_Institution :
CREAVIS, Marl, Germany
Abstract :
The Lotus-Effect(R) research project is dedicated to the vision of producing self-cleaning surfaces. The principle of self-cleaning surfaces was discovered by Prof. Barthlott (1997), a botanist from Bonn, Germany. Barthlott researched the Lotus-Effect(R) of the lotus flower´s leaves, which are self-cleaning due to their rough, wax-covered surfaces that enable them to bead off water, as off of a glowing hotplate. The secret of the so-called Lotus-Effect(R) is the rough surface structure of the leaves, which prevents dirt adhering to them. In addition, the surface of the leaves is coated with an ultra-fine layer of wax crystals which makes them water-repellent
Keywords :
biomimetics; botany; nanotechnology; polymers; surface cleaning; surface structure; Lotus-Effect; dirt adherence prevention; lotus flower´s leaves; nano structure; polymer surfaces; rough surface structure; rough wax-covered surfaces; self-cleaning plant leaves; self-cleaning surfaces production; ultra-fine wax crystals layer; water-repellent surface; Head; Polymers; Programmable logic arrays; Rough surfaces; Scanning electron microscopy; Soil; Surface cleaning; Surface roughness; Testing; Water conservation;
Conference_Titel :
Microtechnologies in Medicine and Biology, 1st Annual International, Conference On. 2000
Conference_Location :
Lyon
Print_ISBN :
0-7803-6603-4
DOI :
10.1109/MMB.2000.893798
