Gripping tale: metal oozes in nanotubes' grasp.Chalk up another feat of astounding a·stound tr.v. a·stound·ed, a·stound·ing, a·stounds To astonish and bewilder. See Synonyms at surprise. [From Middle English astoned, past participle of astonen, strength for the hollow threads called carbon nanotubes. When they squeeze in on enclosed crystals of hard metals, those substances collapse into thin shafts, an international team of scientists reports. The nahotubes exert pressures up to 400,000 atmospheres, or about a tenth of that at the Earth's core At the Earth's Core could be:
The nanotubes' newfound capability "opens up a window to directly watch atomicscale development of pressure-induced phenomena," say Zhongwu Wang and Yusheng Zhao of Los Alamos Los Alamos (lôs ăl`əmōs', lŏs), uninc. town (1990 pop. 11,455), seat of Los Alamos co., N central N.Mex. It is on a long mesa extending from the Jemez Mts. The U.S. (N.M.) National Laboratory in a commentary accompanying the report. The fields of materials science materials science Study of the properties of solid materials and how those properties are determined by the material's composition and structure, both macroscopic and microscopic. , chemistry, condensed-matter physics, geophysics, planetary science, and nanotechnology all stand to benefit, they add. However, the nanotube-induced pressures don't rival those produced in the diamond anvils used in many high-pressure studies (SN: 5/14/05, p. 309), Wang and Zhao note. To carry out the experiments, Banhart and his coworkers in Mainz and in Finland, Mexico, and the United States first vaporized va·por·ize tr. & intr.v. va·por·ized, va·por·iz·ing, va·por·iz·es To convert or be converted into vapor. va carbon containing various metals under conditions that would create multiwalled carbon nanotubes. The tubes simultaneously acquired crystalline cores of iron, cobalt, or iron carbide, a compound that hardens steel. To make the tiny tubes even narrower, the team placed them in the vacuum chamber of an electron microscope electron microscope: see microscope. at a temperature of 600[degrees]C and blasted them with the microscope's high-energy electrons. The beam knocked some carbon atoms out of the tubes. However, at the high temperature, the remaining carbon atoms were mobile enough to cinch cinch a saddle girth on an American stock saddle. Tightens with a knot on a ring instead of with straps and buckles. together and establish new bonds. As that repair process narrowed the tubes and tightened their grips, the metal crystals inside collapsed into narrower, more-elongated shapes. Banhart notes that at room temperature, the beam destroys nanotubes, but he predicts that even at 200[degrees]C, bombarded nanotubes would squeeze forcefully. Because the cinching process occurs inside an electron microscope, "we can now study the deformation of nanocrystals," Banhart says. "This has not been accessible to observation before." He and other scientists find nanocrystals of increasing interest because of their extraordinary properties, including their hardness. In the new experiments, the researchers were surprised to find that the nanocrystals, unlike larger-scale metal crystals, deform without developing any apparent structural flaws. So far, the team can't fully explain that observation, Banhart says. In 1996, Banhart used electron bombardment of carbon nanostructures to make diamonds. He and Pulickel M. Ajayan, now of Rensselaer Polytechnic Institute Rensselaer Polytechnic Institute, at Troy, N.Y.; coeducational; founded and opened 1824 as Rensselaer School; chartered 1826. It was called Rensselaer Institute from 1837 to 1861. in Troy, N.Y., and a coauthor of the new work, forced carbon onions--concentric nanospheres of carbon--to compress their cores (SN: 8/31/96, p. 139). Both sets of experiments have demonstrated a process that could be called "nanoshrink-wrapping," comments David Tomanek of Michigan State University Michigan State University, at East Lansing; land-grant and state supported; coeducational; chartered 1855. It opened in 1857 as Michigan Agricultural College, the first state agricultural college. in East Lansing. He notes that high pressures lower the melting points of metals and make elements mix that ordinarily wouldn't. New materials i built from such nano-shrink-wrapped components might have remarkable properties, says Tomanek. |
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