Self-Assembled Nanoparticle Drumhead Resonators
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1.
California Institute of Technology
Abstract
The self-assembly of nanoscale structures from functional nanoparticles has provided a powerful path to developing devices with emergent properties from the bottom-up. Here we demonstrate that freestanding sheets self-assembled from various nanoparticles form versatile nanomechanical resonators in the megahertz frequency range. Using spatially resolved laser-interferometry to measure thermal vibrational spectra and image vibration modes, we show that their dynamic behavior is in excellent agreement with linear elastic response for prestressed drumheads of negligible bending stiffness. Fabricated in a simple one-step drying-mediated process, these resonators are highly robust and their inorganic–organic hybrid nature offers an extremely low mass, low stiffness, and the potential to couple the intrinsic functionality of the nanoparticle building blocks to nanomechanical motion.
Copyright and License
© 2013 American Chemical Society.
Acknowledgement
We thank Tom Witten, Edward Barry, Yifan Wang, Daniel Lopez, and Dmitri Talapin for helpful discussions and Ralu Divan, Justin Jureller, and Qiti Guo for chip fabrication techniques and technical assistance. This work was supported by NSF through DMR-1207204. The Chicago MRSEC, supported by NSF DMR-0820054, is gratefully acknowledged for access to its shared experimental facilities. J.E.S. acknowledges support from the Australian Research Council grants scheme. Use of the Center for Nanoscale Materials was supported by the U.S. Department of Energy, Office of Science, Office of Basic Energy Sciences, under Contract No. DE-AC02-06CH11357.
Conflict of Interest
The authors declare no competing financial interest.
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Additional details
- ISSN
- 1530-6992
- National Science Foundation
- DMR-1207204
- National Science Foundation
- DMR-0820054
- Australian Research Council
- United States Department of Energy
- DE-AC02-06CH11357
- Caltech groups
- Kavli Nanoscience Institute