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For years, materials scientists have been trying to catch up with geckos. Adhesives that, like gecko feet, are dry, powerful, reusable, and self-cleaning could help robots climb walls or hold together electrical components, even in the harsh conditions of outer space. But it’s been difficult to design strong adhesives that can be lifted back up again. Now researchers have developed an adhesive made of carbon nanotubes whose structure closely mimics that of gecko feet. It’s 10 times more adhesive than the lizards’ feet and, like the natural adhesive, easy to lift back up. And it works on a variety of surfaces, including glass and sandpaper.

Developed by a group led by Liming Dai, a professor of materials engineering at the University of Dayton, and Zhong Wang, director of the Center for Nanostructure Characterization at Georgia Tech, the adhesive is not the first made from carbon nanotubes. However, it’s much stronger than previous nanotube adhesives. Its branched structure more closely mimics the structures on gecko feet, which are covered with millions of microscale hairs that branch into many smaller hairs, each of which has a weak electrical interaction with a surface. These many weak interactions add up to strong adhesion over the area of the foot. Previously, researchers have shown that arrays of vertically aligned carbon nanotubes have similar interactions with a surface.

“People have tried to mimic the gecko structures, but it’s not easy,” says Dai. Using a silicon substrate, he and his group grew arrays of vertically aligned carbon nanotubes topped with an unaligned layer of nanotubes, like rows of trees with branching tops. The adhesive force of these nanotube arrays is about 100 newtons per square centimeter–enough for a four-by-four-millimeter square of the material to hold up a 1,480-gram textbook. And its adhesive properties were the same when tested on very different surfaces, including glass plates, polymer films, and rough sandpaper.

One advantage of this adhesive over others is that its strength is strongly direction dependent. When it’s pulled in a direction parallel to its surface, it’s very strong. That’s because the branched nanotubes become aligned, says Dai. But when it’s pulled up with little force, as one would peel a piece of Scotch tape, the nanotubes lose contact one by one.

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Credit: Science/AAAS

Tagged: Communications, Materials, carbon nanotubes, sticky materials, adhesive, gecko

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