New microscope sets a record for visualizing surface wetting properties
"Our novel microscope will promote the understanding of how wetting emerges from surface microstructures. The measuring instrument can also detect microscopic defects of the surface, which could allow coating manufacturers to control the quality of materials. Defects in self-cleaning, anti-icing, anti-fogging, anti-corrosion or anti-biofouling products can impeach the functional integrity of the whole surface," explains Professor Robin Ras from Aalto University School of Science.
SDAM is extremely sensitive and 1000 times more precise than the current state-of-the-art wetting characterization methods. It also has the ability to measure minuscule features and inconsistencies of surfaces with microscale resolution. Existing instruments for measuring droplet adhesion forces only detect forces down to a micronewton level - not sensitive enough for superhydrophobic surfaces.
"We have used a droplet of water to measure the water-repellent properties of a surface by recording the very tiny nanonewton force when the droplet touches the surface and when it separates from the surface. By measuring on many locations with micrometer spacing between the measurement points, we can construct a two-dimensional image of the surface's repellency, called a wetting map," explains Professor Quan Zhou from Aalto University School of Electrical Engineering.
Wetting maps are a new concept for hydrophobic surface characterization and open a window for investigating structure-property relationships in surface wetting.
Up to now, 'contact angle measurement' has been the typical method of measuring wetting properties of surfaces. It is prone to inaccuracies, though, for surfaces that are highly repellent to liquid. Unlike contact angle measurement, SDAM does not require a direct line of sight, which allows measuring uneven surfaces such as fabrics or biological surfaces. SDAM can also detect wetting properties of microscopic functional features that were previously very hard to measure. Those microscopic features are important in many biochips, chemical sensors and microelectromechanical components and systems.
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