Mechanism for nanotube formation from self-bending nanofilms driven by atomic-scale surface-stress imbalance |
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Authors: | Zang Ji Huang Minghuang Liu Feng |
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Institution: | Department of Materials Science and Engineering, University of Utah, Salt Lake City, Utah 84112, USA. |
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Abstract: | We demonstrate, by theoretical analysis and molecular dynamics simulation, a mechanism for fabricating nanotubes by self-bending of nanofilms under intrinsic surface-stress imbalance due to surface reconstruction. A freestanding Si nanofilm may spontaneously bend itself into a nanotube without external stress load, and a bilayer SiGe nanofilm may bend into a nanotube with Ge as the inner layer, opposite of the normal bending configuration defined by misfit strain. Such rolled-up nanotubes can accommodate a high level of strain, even beyond the magnitude of lattice mismatch, greatly modifying the tube electronic and optoelectronic properties. |
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