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Materials scientists can turn sheets of plastic or metal into antibacterial, self-cleaning, or lubricating coatings by patterning the surfaces with nanostructures.
To make such smart surfaces quickly and on a large scale, Barbara Stadlober of Joanneum Research, a government research center in Austria, and colleagues built upon a nanoimprinting method that uses rotating stamps to continuously and rapidly impress patterns onto moving sheets of material (ACS Nano 2016, DOI: 10.1021/acsnano.5b07411).
The sheets are coated with a polymer that hardens when exposed to ultraviolet light, curing the stamped pattern. To make a patterned metal surface, the researchers can use the sheet as a mold, coating it with metal that they can then pull off as a film. The system can continuously print features ranging from 100 nm to 25 μm wide on a substrate 250 mm wide, and at speeds greater than 10 meters per minute.
Stadlober’s group tailored the recipe of the UV-curable polymer to print different types of complex three-dimensional structures, such as mushroom shapes with undercut features. They made superhydrophobic plastic coatings and transparent electrodes consisting of an invisible grid of metal nanowires.
C. Grant Willson of the University of Texas, Austin, is impressed with the system’s performance and thinks the team could speed up the process by further improving the properties of the curable material.
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