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Reaching silicon-based NEMS performances with 3D printed nanomechanical resonators

Rapid fabrication of NEMS devices that present an effective alternative to semiconducting resonators as highly sensitive mass and force sensors.

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Abstract:

“The extreme miniaturization in NEMS resonators offers the possibility to reach an unprecedented resolution in high-performance mass sensing. These very low limits of detection are related to the combination of two factors: a small resonator mass and a high quality factor. The main drawback of NEMS is represented by the highly complex, multi-steps, and expensive fabrication processes. Several alternatives fabrication processes have been exploited, but they are still limited to MEMS range and very low-quality factor. Here we report the fabrication of rigid NEMS resonators with high-quality factors by a 3D printing approach. After a thermal step, we reach complex geometry printed devices composed of ceramic structures with high Young’s modulus and low damping showing performances in line with silicon-based NEMS resonators ones. We demonstrate the possibility of rapid fabrication of NEMS devices that present an effective alternative to semiconducting resonators as highly sensitive mass and force sensors.”

Find the open access technical paper here.  Published 10/2021.

Stassi, S., Cooperstein, I., Tortello, M. et al. Reaching silicon-based NEMS performances with 3D printed nanomechanical resonators. Nat Commun 12, 6080 (2021). https://doi.org/10.1038/s41467-021-26353-1



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