Physicists discover gold can be magnetic on the nanoscale

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Three-dimensional (a) and planar 20-atom gold clusters (b) showing top and side views with the gold atoms depicted as yellow spheres adsorbed on an MgO 8-layer film (Mg atoms in green and O atoms in red) which itself is supported by an underlying sil ...
Three-dimensional (a) and planar 20-atom gold clusters (b), showing top and side views, with the gold atoms depicted as yellow spheres, adsorbed on an MgO 8-layer film (Mg atoms in green and O atoms in red), which itself is supported by an underlying silver substrate (not shown). The calculations were performed under the influence of an electric field of 1 volt per nanometer. The excess electronic charge distribution is superimposed on the atomic structure as a blue cloud. The planar structure (b) is the favorable one under these conditions, while without the electric field the 3-D cluster (a) is the more stable one. Credit: Uzi Landman/Georgia Tech

Physicists at the Georgia Institute of Technology have made important findings regarding gold on the nanoscale. They found that applying an electrical field on a surface-supported gold nanocluster changes its structure from a three-dimensional one to a planar flat structure. In another paper, they relate their discovery that gold in this size regime can be made magnetic through oxygenation of gold nanowires.


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