Gecko-inspired adhesive is superstrong. (Caught on Tape).As it scurries along the ceiling, a gecko gecko (gĕk`ō), small or medium-sized lizard of the family Gekkonidae. The more than 300 species are distributed throughout the warm regions of the world, mostly in the Old World. Despite folklore to the contrary, their bite is not poisonous. has the sticking power to Support not just its own body weight, but about 400 times as much. Besides that sticking power, the natural adhesive on this animal's feet is clean and reusable, and it works on all surfaces, wet or dry. Scientists at the University of Manchester The University of Manchester is a university located in Manchester, England. With over 40,000 students studying 500 academic programmes, more than 10,000 staff and an annual income of nearly £600 million it is the largest single-site University in the United Kingdom and receives in England and the Institute for Microelectronics Technology in Russia have emulated the animal's adhesive mechanism by creating "gecko tape" It comes closer to the lizard's sticking power than any other gecko-styled adhesive so far. The 1-square-centimeter prototype patch can bear about 3 kilograms, almost one-third the weight that the same area of gecko sole can support. In the July Nature Materials, Andre Geim of the University of Manchester and his colleagues claim that the tape is scalable to human dimensions: Wearing a "gecko glove," a person could dangle dangle Nursing A popular term for the first movement a Pt is allowed, either after surgery under general anesthesia, or 'under local', where the recuperee allows his/her feet to dangle over the side of the bed from the ceiling. In theory, the tape could hold tissues together after surgery or support stunt doubles climbing around movie sets. The gecko tape is modeled on the gecko sole, an intricate fingernail-size surface covered with a half-million microscopic, hair-like structures known as setae. Each seta's tip branches into even finer hairs that nestle so closely with every surface the gecko touches that intermolecular Adj. 1. intermolecular - existing or acting between molecules; "intermolecular forces"; "intermolecular condensation" attractions called van der Waals bonds and capillary forces kick in. These bond the gecko's foot to the surface (SN: 8/31/02, p. 133). Geim and his team made their synthetic gecko adhesive by fabricating a tidy array of microscale hairs out of polyimide Pronounced "poly-ih-mid." A type of plastic (a synthetic polymeric resin) originally developed by DuPont that is very durable, easy to machine and can handle very high temperatures. Polyimide is also highly insulative and does not contaminate its surroundings (does not outgas). , a flexible and wear-resistant plastic. When mounted on a flexible base, the arrangement and density of the hairs maximize the number of hairs contacting a surface. "The smaller the hairs are, and the more of them you have, the greater the adhesion," notes Ron Fearing, an engineer at the University of California, Berkeley The University of California, Berkeley is a public research university located in Berkeley, California, United States. Commonly referred to as UC Berkeley, Berkeley and Cal . Unlike a gecko's feet, however, the tape begins to lose its adhesive power after about five applications. Geim blames this shortcoming on polyimide's hydrophilicity, that is, its tendency to attract water. With repeated applications, some of the gecko tape's hairs get soggy, bunch together, and then clump onto the tape's base. This happens even when the tape is attached to surfaces that are dry to the touch, because they carry a layer of water two or three atoms thick. By using hydrophilic hydrophilic /hy·dro·phil·ic/ (-fil´ik) readily absorbing moisture; hygroscopic; having strongly polar groups that readily interact with water. hy·dro·phil·ic adj. material, Geim departed from the gecko's design--its setae are made of keratin keratin (kĕr`ətĭn), any one of a class of fibrous protein molecules that serve as structural units for various living tissues. The keratins are the major protein components of hair, wool, nails, horn, hoofs, and the quills of feathers. , a so-called hydrophobic protein that repels water. Geim says hydrophobic materials, which include silicone and polyester, are more difficult to mold into setae-like structures than is polyimide. Even so, both he and Fearing agree, it will take water-repellant substances to produce a long-lasting gecko tape. |
|
||||||||||||||||||
Printer friendly
Cite/link
Email
Feedback
Reader Opinion