Characterizing the elasticity of hollow metal nanowires

C. Ji and H. S. Park, Nanotechnology, 18, 115707 (2007).

We have performed atomistic simulations on solid and hollow copper nanowires to quantify the elastic properties of the hollow nanowires (nanoboxes). We analyze variations in the modulus, yield stress and strain for <100> and <110> nanoboxes by varying the amount of bulk material that is removed to create the nanoboxes. We find that while <100> nanoboxes show no improvement in elastic properties as compared to solid <100> nanowires, <110> nanoboxes can show enhanced elastic properties as compared to solid <110> nanowires. The simulations reveal that the elastic properties of the nanoboxes are strongly dependent on the relative strength of the bulk material that has been removed, as well as the the total surface area of the nanoboxes, and indicate the potential of ultralight, high- strength nanomaterials such as nanoboxes.

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