Archivio Istituzionale della RicercaThe nanofabrication of a nanomachined holed structure localized on the free end of a microcantilever is here presented, as a new tool to design micro-resonators with enhanced mass sensitivity. The proposed method allows both for the reduction of the sensor oscillating mass and the increment of the resonance frequency, without decreasing the active surface of the device. A theoretical analysis based on the Rayleigh method was developed to predict resonance frequency, effective mass, and effective stiffness of nanomachined holed microresonators. Analytical results were checked by Finite Element simulations, confirming an increase of the theoretical mass sensitivity up to 250%, without altering other figures of merit. The nanomachined holed resonators were vibrationally characterized, and their Q-factor resulted comparable with solid microcantilevers with same planar dimensions.
Resonating Behaviour of Nanomachined Holed Microcantilevers / Canavese, Giancarlo; Ricci, Alessandro; Gazzadi, Gian Carlo; Ferrante, Ivan; Mura, Andrea; Marasso, SIMONE LUIGI; Ricciardi, Carlo. - In: SCIENTIFIC REPORTS. - ISSN 2045-2322. - ELETTRONICO. - 5:(2015), p. 17837. [10.1038/srep17837]
Resonating Behaviour of Nanomachined Holed Microcantilevers
CANAVESE, GIANCARLO;RICCI, ALESSANDRO;FERRANTE, IVAN;MURA, ANDREA;MARASSO, SIMONE LUIGI;RICCIARDI, Carlo
2015
Abstract
The nanofabrication of a nanomachined holed structure localized on the free end of a microcantilever is here presented, as a new tool to design micro-resonators with enhanced mass sensitivity. The proposed method allows both for the reduction of the sensor oscillating mass and the increment of the resonance frequency, without decreasing the active surface of the device. A theoretical analysis based on the Rayleigh method was developed to predict resonance frequency, effective mass, and effective stiffness of nanomachined holed microresonators. Analytical results were checked by Finite Element simulations, confirming an increase of the theoretical mass sensitivity up to 250%, without altering other figures of merit. The nanomachined holed resonators were vibrationally characterized, and their Q-factor resulted comparable with solid microcantilevers with same planar dimensions.
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https://hdl.handle.net/11583/2625376
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