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Researchers have discovered that gold can take the shape of nanoscale, hollow cages similar to carbon buckyballs. Lai-Sheng Wang of Washington State University in Richland, Xiao Cheng Zeng of the University of Nebraska in Lincoln, and their coworkers bombarded a piece of gold with a laser in a vacuum and studied the clusters that arose.
Typically, "metals like to form close-packed structures," says Wang. But when 16 to 18 atoms joined, they formed empty cages. The researchers don't yet know whether the gold-lattice cages would survive outside the vacuum, but placing a nongold atom within the 0.6-nanometer-diameter frames might stabilize them. In an upcoming Proceedings of the National Academy of Sciences, the group provides evidence for the structures. A model of the 16-atom version is shown here.
Found in: Materials Science
- Wu, C. 1996. Buckyballs bounce into Nobel history. Science News 150(Oct. 19)247.
- Lai-Sheng Wang
Department of Physics
Washington State University
Richland, WA 99354
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