AI Article Synopsis
- New experimental and theoretical tools are needed to understand the mechanical properties of nanoscale systems, including sensitive force sensors in the nanonewton range.
- A tuning-fork-based force sensor has been developed for in situ nanomanipulation inside a scanning electron microscope, allowing for direct and quantitative force measurements between 1-100 nN.
- This sensor was calibrated against a force standard and has been successfully used to analyze the mechanical deformation of multi-walled carbon nanotube bundles, measuring forces between 5-40 nN with minimal error.
Article Abstract
Understanding the mechanical properties of nanoscale systems requires new experimental and theoretical tools. In particular, force sensors compatible with nanomechanical testing experiments and with sensitivity in the nN range are required. Here, we report the development and testing of a tuning-fork-based force sensor for in situ nanomanipulation experiments inside a scanning electron microscope. The sensor uses a very simple design for the electronics and it allows the direct and quantitative force measurement in the 1-100 nN force range. The sensor response is initially calibrated against a nN range force standard, as, for example, a calibrated Atomic Force Microscopy cantilever; subsequently, applied force values can be directly derived using only the electric signals generated by the tuning fork. Using a homemade nanomanipulator, the quantitative force sensor has been used to analyze the mechanical deformation of multi-walled carbon nanotube bundles, where we analyzed forces in the 5-40 nN range, measured with an error bar of a few nN.
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| http://dx.doi.org/10.1063/1.4868236 | DOI Listing |
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