DISCLAIMER: This article is being kept online for historical purposes. Though accurate at last review, it is no longer being updated. The page may contain broken links or outdated information.
Wetting (physical chemistry)
Lipowsky, Reinhard Abteilung Theorie, Max-Planck-Institut of Colloids and Interfaces, Golm, Germany.
- Structured and imprinted surfaces
- Channel transition
- Morphological wetting transitions
- Nanodomains and contact line tension
- Microbridges and microchips
- Related Primary Literature
- Additional Reading
Wetting and dewetting phenomena occur if a liquid is in contact with another phase, typically a solid substrate. If the substrate exerts an attractive force on the liquid molecules, the surface is lyophilic and the liquid attains a relatively large contact area with the substrate surface; this is the case of wetting. Dewetting corresponds to the situation in which the substrate is lyophobic and exerts a repulsive force onto the liquid; the liquid retracts from the surface, and there is relatively little contact area between liquid and substrate.
The content above is only an excerpt.
for your institution. Subscribe
To learn more about subscribing to AccessScience, or to request a no-risk trial of this award-winning scientific reference for your institution, fill in your information and a member of our Sales Team will contact you as soon as possible.
to your librarian. Recommend
Let your librarian know about the award-winning gateway to the most trustworthy and accurate scientific information.
AccessScience provides the most accurate and trustworthy scientific information available.
Recognized as an award-winning gateway to scientific knowledge, AccessScience is an amazing online resource that contains high-quality reference material written specifically for students. Contributors include more than 10,000 highly qualified scientists and 45 Nobel Prize winners.
MORE THAN 8700 articles covering all major scientific disciplines and encompassing the McGraw-Hill Encyclopedia of Science & Technology and McGraw-Hill Yearbook of Science & Technology
115,000-PLUS definitions from the McGraw-Hill Dictionary of Scientific and Technical Terms
3000 biographies of notable scientific figures
MORE THAN 19,000 downloadable images and animations illustrating key topics
ENGAGING VIDEOS highlighting the life and work of award-winning scientists
SUGGESTIONS FOR FURTHER STUDY and additional readings to guide students to deeper understanding and research
LINKS TO CITABLE LITERATURE help students expand their knowledge using primary sources of information