Thermal Vibration-Induced Rotation of Nano-Wheel: A Molecular Dynamics Study

Thermal Vibration-Induced Rotation of Nano-Wheel: A Molecular Dynamics Study

By bending a straight carbon nanotube and bonding both ends of the nanotube, a nanoring (or nano-wheel) is produced. The nanoring system can be driven to rotate by fixed outer nanotubes at room temperature. When placing some atoms at the edge of each outer tube (the stator here) with inwardly radial...

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Bibliographic Details
Published in:International journal of molecular sciences Vol. 19; no. 11; p. 3513
Main Authors: Duan, Haiyan, Shi, Jiao, Cai, Kun, Qin, Qing-Hua
Format: Journal Article
Language:English
Published: Switzerland MDPI AG 08-11-2018
MDPI
Subjects:
Axes of rotation
Carbon
carbon nanotube
Friction
Low temperature
Molecular dynamics
Molecular Dynamics Simulation
nanomachine
Nanotubes, Carbon - chemistry
Room temperature
Rotation
Stators
Temperature
thermal vibration
Vibration
thermal vibration
carbon nanotube
molecular dynamics
nanomachine
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Summary:By bending a straight carbon nanotube and bonding both ends of the nanotube, a nanoring (or nano-wheel) is produced. The nanoring system can be driven to rotate by fixed outer nanotubes at room temperature. When placing some atoms at the edge of each outer tube (the stator here) with inwardly radial deviation (IRD), the IRD atoms will repulse the nanoring in their thermally vibration-induced collision and drive the nanoring to rotate when the repulsion due to IRD and the friction with stators induce a non-zero moment about the axis of rotational symmetry of the ring. As such, the nanoring can act as a wheel in a nanovehicle. When the repulsion is balanced with the intertubular friction, a stable rotational frequency (SRF) of the rotor is achieved. The results from the molecular dynamics simulation demonstrate that the nanowheel can work at extremely low temperature and its rotational speed can be adjusted by tuning temperature.
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ISSN:1422-0067
1661-6596
1422-0067
DOI:10.3390/ijms19113513