Quasicrystals: Tougher Steel, Better Pans in National Geographic

Resembling mosaic tile, this atomic model shows a type of quasicrystal, a material whose atoms display a regular but nonrepeating pattern—once thought impossible in crystals.

October 5, 2011 - Washington, D.C.

From National Geographic

by Ker Than

The discovery of quasicrystals earned Israeli scientist Daniel Shechtman the 2011 Nobel Prize in Chemistry Wednesday—and joins the list of Nobel-winning chemical discoveries with the potential to change the way we live.

"Quasicrystals were an unexpected state of matter when Shechtman discovered them. ... [and] there was initial resistance to the discovery," said Thomas Tritton, president and CEO of the nonprofit Chemical Heritage Foundation, based in Philadelphia, Pennsylvania. "Luckily, persistence [and] further research carried the day."

Schectman, of the Technion-Israel Institute of Technology, glimpsed his first example of quasicrystals' "forbidden symmetry" in April 1982, when he was studying a metallic crystal made of aluminum and manganese under a microscope. The researcher spotted a unique diffraction pattern of concentric circles made up of ten bright dots, all at the same distance from each other. At the time, scientists thought a crystal could have only four to six such dots.

Since Schectman's initial discovery, other quasicrystals have been discovered in nature and in the lab. One quasicrystal has been found in a kind of highly resilient steel now used in razor blades and surgery needles.

Because of quasicrystals' unique physical properties, scientists are also experimenting with using the crystals in products ranging from diesel engines to frying pans...

Link to National Geographic

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