Wettable latex makes for drier surroundings.Diapers absorb urine, but they don't hold it very well. To keep babies' bottoms drier, one needs a material that likes being wetter. Disposable diapers, like many consumer products, contain elastomer elastomer (ĭlăs`təmər), substance having to some extent the elastic properties of natural rubber. The term is sometimes used technically to distinguish synthetic rubbers and rubberlike plastics from natural rubber. - a stretchable material made of chain-like molecules called polymers. Elastomers make room for urine as then baby wets. But because elastomer surface lack the energy to hold on to water, droplets bead bead Small object, usually pierced for stringing. It may be made of virtually any material—wood, shell, bone, seed, nut, metal, stone, glass, or plastic—and is worn or affixed to another object for decorative or, in some cultures, magical purposes. up and spill off, and the diaper leaks. Adding soap can lower the surface tension so that the drops stay on longer, but eventually the soap washes off. Thus, most elastomers are swellable but not "wettable," says Isao Noda, a polymer scientist with Procter & Gamble in Cinnati. A new latex latex, emulsion of a polymer (e.g., rubber) in water (see colloid). Natural latexes are produced by a number of plants, are usually white in color, and often contain, in addition to rubber, various gums, oils, and waxes. film promises to fix that, he says. In the March 14 Nature, Noda describes an elastomer that any water molecule can love. Unlike other rubber materials, its surface attracts water. So instead of rolling off, the droplets spread flat and stay put. "Up to now, you've never had that property before [in rubber]," says Carl C. Gryte, a chemical engineer at Columbia University Columbia University, mainly in New York City; founded 1754 as King's College by grant of King George II; first college in New York City, fifth oldest in the United States; one of the eight Ivy League institutions. in New York City New York City: see New York, city. New York City City (pop., 2000: 8,008,278), southeastern New York, at the mouth of the Hudson River. The largest city in the U.S. . The secret lies in a hybrid molecule known as a block copolymer copolymer: see polymer. , which Noda mixes with latex particles when making his elastomer. This hybrid consists of two molecular chains attached at their tail ends. One, called the polar chain, sticks out of the finished elastomer film and contains lots of oxygen, which attracts water molecules. The other chain branches as the elastomer forms, entwining itself with the latex particles like an overgrown overgrown said of a part that has not been kept trimmed. overgrown hoof overgrown hooves put unusual stresses on bones and tendons and allow for distortion of the wall and sole. root. Usually, such arrangements don't last because the molecules in rubber move around all the time and "the polar groups get swallowed up like quicksand quicksand State in which water-saturated sand loses its supporting capacity and acquires the characteristics of a liquid. Quicksand is usually found in a hollow at the mouth of a large river or along a flat stretch of stream or beach where pools of water become partly filled ," Noda explains. As a result, the water-loving property eventually disappears. Noda suspects his block copolymer molecule may be so large that the rubber can't swallow it. "It takes a tremendous amount of work to push this huge molecule inside the rubber matrix," he says. The new material's water-loving property seems permanent. Noda reports washing the elastomer continuously for a week without rinsing off the polar surface, heating the material to 140 [degrees]F. and keeping it in dry air, all with no ill effects. If placed in a diaper's absorbert layer, he says, the wettable film will suck in urine "almost like a pump." Its potential applications reach well beyond the nursery, observes Mohamed El-Aasser, director of Lehigh University's Center for Polymer Science Polymer science or macromolecular science is the subfield of materials science concerned with polymers, primarily synthetic polymers such as plastics. The field of polymer science includes researchers in multiple disciplines including chemistry, physics, and engineering. and Engineering in Bethlehem, Pa. Noda's invention may enable scientists to gain more precise control over the strength and placement of water-loving properties, El-Aasser suggests. And with the ability to control which parts of a material get wet and which stay dry, all sorts of product improvements become possible. Looking to the future, the and others envision rubber surfaces that hold paints or inks more tightly, fabricas that "breathe" better and medical devices more compatible with body fluids. |
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