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Contact: Jennifer Grasswick
jgrasswi@nsf.gov
703-292-4972
National Science Foundation
Caption: At standard atmospheric or ambient pressure, the lithium beryllium alloy is unstable. However, at high density and at relatively high pressure, the predicted alloy stabilizes. As the atoms are squeezed in tightly, lithium's ionic cores (the larger of the two) begin to overlap. This creates a sort of "wall" that forces the outer (valence) electrons out of the lithium layer, and over to the beryllium layer. It is there that the electrons form a curious 2-D gas. In contrast, electrons in most metals bounce about quite freely in a 3-D fashion.
Credit: Zina Deretsky, National Science Foundation
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Related news release: Lithium and beryllium no longer 'lack chemistry'
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