期刊
NANO LETTERS
卷 -, 期 -, 页码 -出版社
AMER CHEMICAL SOC
DOI: 10.1021/acs.nanolett.2c01187
关键词
MEMS; NEMS; carbon nanotubes; resonators; snap-through buckling; bistability
类别
资金
- ISF [1854/19]
- Russell Berrie Nanotechnology Institute
- Council for Higher Education
- Russel Berrie scholarships
This article addresses the characteristics and phenomena of bistable resonators based on carbon nanotubes, finding inaccuracies in the common approach to calculating vibrational resonance amplitude and studying the latching phenomenon and inner shell sliding.
Bistable arched beams exhibiting Euler-Bernoulli snap-through buckling are widely investigated as promising candidates for various potential applications, such as memory devices, energy harvesters, sensors, and actuators. Recently, we reported the realization of a buckled suspended carbon nanotube (CNT) based bistable resonator, which exhibits a unique three-dimensional snap-through transition and an extremely large change in frequency as a result. In this article, we address a unique characteristic of these devices in which a significant change in the DC conductance is also observed at the mechanical snap-through transition. Through the analysis of this phenomenon, we arrive at several important conclusions: we find that the common approach to determining CNT vibrational resonance amplitude is inaccurate; we find evidence that latching phenomena should be easily realizable, relevant for RF switches and nonvolatile memory devices. Finally, we present evidence for possible inner shell sliding, which is relevant for understanding interlayer coupling and moire pattern research.
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