| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 1562352 | Computational Materials Science | 2011 | 5 Pages |
We investigated the cantilevered carbon-nanotube-resonator including electromigratively movable nanoparticle via classical molecular dynamics simulations and continuum model. The change of the effective mass value, which was closely correlated with the position change of the encapsulated nanoparticle, could be regressed by a power function, the resonance frequency of the carbon-nanotube-resonator could be tuned by controlling the nanoparticle’s position, and the possible frequency-shift-ranges then reached 18–85%. The suggested device could be served as a data-storage-media for electromechanical nonvolatile-memory as well as a frequency-tuner.
Research highlightsCantilevered carbon-nanotube-resonator including electromigratively movable nanoparticle. Resonance frequency can be tuned by controlling the nanoparticle’s position. Suggested device can be served as an electromechanical nonvolatile-memory.
