Materials repel water with simplicity, style. (Waterproof Coats).Scientists have long sought new coatings that zealously repel water. This week, publications describe two promising finds. Research from Japan shows that water-repellant materials can also be decorative. In a separate report, Turkish researchers describe a way to convert a plastic into a new type of cheap, easily produced waterproofing. Although their final coatings are different, both teams took their inspiration from nature--from the wings of a butterfly and the leaves of the lotus plant. The microscopically rough surfaces of these organisms prevent water drops from flattening, so the drops roll off and carry away dirt. Because water beads so well on these surfaces, they're called superhydrophobic. Using the brilliantly blue Morpho The Blue Morpho refers to several species of butterfly, including:
n. The structure of an organism or object as revealed through microscopic examination. microstructure Noun a structure on a microscopic scale, such as that of a metal or a cell of the insect's wings not only shuns water but also scatters and diffracts light to create an iridescent ir·i·des·cent adj. 1. Producing a display of lustrous, rainbowlike colors: an iridescent oil slick; iridescent plumage. 2. color. Similarly, the microstructure of the new, decorative coating repels water while producing striking colors. Gu's team made the material by permitting 6-nanometer-wide silica particles and several-hundred-micrometer-wide polystyrene spheres to assemble into a film. The researchers then heated the film to remove the polystyrene, leaving the silica particles uniformly spaced with air gaps between them. To this rough surface, the scientists added a layer of fluoroalkylsilane, a commercially available waterproofing compound. The researchers describe the procedure in the Feb. 24 Angewandte Chemie International Edition. The bumpy topography enhanced the fluoroalkylsilane's water-repelling power, says Gu. By varying the distance between air gaps, the team created materials in colors ranging from red to blue and versions with no apparent color. "It's a very clever trick," comments Manoj K. Chaudhury of Lehigh University Lehigh University, at Bethlehem, Pa.; coeducational; chartered and opened 1866 by Asa Packer. It has undergraduate colleges of arts and science, business and economics, and engineering and applied science, as well as several graduate programs. in Bethlehem, Pa. The new technique "may lead to self-cleaning photonic crystals for decoration and optical circuitry," adds Ray Baughman Ray Baughman received a B.S. in Physics from Carnegie Mellon University and a Ph.D. in the Materials Science area from Harvard University. Upon graduation he went to Allied Chemical, which later became AlliedSignal and Honeywell. of the University of Texas at Dallas History The university was originally started as a research arm of Texas Instruments as the Graduate Research Center of the Southwest in 1961. The institute (by then renamed the Southwest Center for Advanced Studies) which at the time was located at Southern Methodist . The new material may also provide a colorful, self-cleaning coating for cameras or windows, says Gu. It would be environmentally friendly Environmentally friendly, also referred to as nature friendly, is a term used to refer to goods and services considered to inflict minimal harm on the environment.[1] because no organic dye would be required to create color and no detergent would be needed to clean the surface, he adds. The Turkish research team set its sights on low-cost coatings that are easy to make and use. In the Feb. 28 Science, A. Levent Demirel of Koc University in Istanbul and researchers at Kocaeli University report that they've created a superhydrophobic coating from a low-cost, widely produced plastic called isotactic Isotactic polymers refer to those polymers formed by branched monomers that have the characteristic of having all the branch groups on the same side of the polymeric chain. polypropylene, or iPP. Making the coating is "simple, inexpensive, and time-saving," says Demirel. The Turkish group dissolved iPP in organic solvents, dropped the solution onto glass slides, and then evaporated the solvents. This procedure produced a porous plastic film that, when viewed with a microscope, "resembles a bird's nest made of branched and intermingled sticks and bumps," the researchers report. Just as they do on rough lotus leaves, water drops readily bead up on the rough plastic coating. |
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