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改进工艺 制作“完美的玻璃”

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Glasses differ from crystals. Crystals are organized in repeating patterns that extend in every direction. Glasses lack this strict organization, but do sometimes demonstrate order among neighboring atoms. New research from Carnegie's Geophysical Laboratory reveals the possibility of creating a metallic glass(金属玻璃) that is organized on a larger scale. Their results are published June 17 in Science. Scientists have discovered glasses that demonstrate order among the nearest neighboring atoms, called short-range order, and a slightly wider range of atoms, called medium-range order. Most research about finding or creating a glass with a long-range, nearly crystalline, level of order—referred to as the perfect glass state—has been conducted on ice and the minerals silica(二氧化硅) and zeolite(沸石) . But no research into long-range order glass has been successful until now.

The research team, including Carnegie's Ho-Kwang (Dave) Mao, focused on metallic glass made from the elements cerium and aluminum. Metallic glasses are a hot research topic, because they are less b than ordinary glasses and more resilient than conventional metals. They combine the advantages and avoid many of the problems of normal metals and glasses, two classes of materials with a very wide range of potential applications.

By placing the cerium-aluminum glass under 25 gigapascals of pressure--about 250,000 times normal atmospheric pressure--the team was able to create a single crystal. When the glass was brought back to ambient pressure(环境压力) , the new structural order was preserved.

Using x-ray techniques and simulations, the team determined that the atomic structures of cerium and aluminum prevent the glass from assuming the highly ordered state at normal pressures. But under the intense 25 gigapascals, an electron in cerium shifts, allowing the crystalline structure to be created.

"These exciting results demonstrate that pressurized cerium-aluminum glass could be a favorable system for discovering the long-sought-after perfect glass," Mao said. "This situation could also exist in other metallic glasses."

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