Fabrication of clamped-clamped beam resonators with embedded fluidic nanochannel

Davide Scaiola; Stefano Stassi; Roberta Calmo; Damien Maillard; Stefano Varricchio; Annalisa De Pastina; Luis Guillermo Villanueva; Philippe  Renaud; Carlo Ricciardi

doi:10.1016/j.mee.2020.111395

Fabrication of clamped-clamped beam resonators with embedded fluidic nanochannel

Davide Scaiola, Stefano Stassi, Roberta Calmo, Damien Maillard, Stefano Varricchio, Annalisa De Pastina, Luis Guillermo Villanueva, Philippe Renaud, Carlo Ricciardi

Research output: Contribution to journal › Article › peer-review

Abstract

Suspended nanochannel resonators (SNRs) are promising devices able to characterize mass down to the attogram scale, thus being able to detect nanoparticles or biomolecules. In this paper, we present a flexible fabrication process for SNRs based on a sacrificial layer approach that allows to easily tailor the dimensions of the nanochannel by changing the thickness of the sacrificial layer or its patterning during the lithographic step. The resonance properties of the fabricated SNR are investigated in terms of resonance frequency and frequency stability (Allan deviation). Liquids of different densities are injected in the device and, from the shift of the resonance peaks, the mass responsivity of the resonators is assessed to be up to 3.90 mHz/ag. To the best of our knowledge, the devices here presented are the first example of suspended nanochannel resonators with a channel height as low as 50 nm fabricated with a top-down approach.

Original language	English
Journal	Microelectronic Engineering
DOIs	https://doi.org/10.1016/j.mee.2020.111395
Publication status	Published - Jun 2020
Externally published	Yes

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title = "Fabrication of clamped-clamped beam resonators with embedded fluidic nanochannel",

abstract = "Suspended nanochannel resonators (SNRs) are promising devices able to characterize mass down to the attogram scale, thus being able to detect nanoparticles or biomolecules. In this paper, we present a flexible fabrication process for SNRs based on a sacrificial layer approach that allows to easily tailor the dimensions of the nanochannel by changing the thickness of the sacrificial layer or its patterning during the lithographic step. The resonance properties of the fabricated SNR are investigated in terms of resonance frequency and frequency stability (Allan deviation). Liquids of different densities are injected in the device and, from the shift of the resonance peaks, the mass responsivity of the resonators is assessed to be up to 3.90 mHz/ag. To the best of our knowledge, the devices here presented are the first example of suspended nanochannel resonators with a channel height as low as 50 nm fabricated with a top-down approach.",

author = "Davide Scaiola and Stefano Stassi and Roberta Calmo and Damien Maillard and Stefano Varricchio and {De Pastina}, Annalisa and Villanueva, {Luis Guillermo} and Philippe Renaud and Carlo Ricciardi",

year = "2020",

month = jun,

doi = "10.1016/j.mee.2020.111395",

language = "English",

}

TY - JOUR

T1 - Fabrication of clamped-clamped beam resonators with embedded fluidic nanochannel

AU - Scaiola, Davide

AU - Stassi, Stefano

AU - Calmo, Roberta

AU - Maillard, Damien

AU - Varricchio, Stefano

AU - De Pastina, Annalisa

AU - Villanueva, Luis Guillermo

AU - Renaud, Philippe

AU - Ricciardi, Carlo

PY - 2020/6

Y1 - 2020/6

N2 - Suspended nanochannel resonators (SNRs) are promising devices able to characterize mass down to the attogram scale, thus being able to detect nanoparticles or biomolecules. In this paper, we present a flexible fabrication process for SNRs based on a sacrificial layer approach that allows to easily tailor the dimensions of the nanochannel by changing the thickness of the sacrificial layer or its patterning during the lithographic step. The resonance properties of the fabricated SNR are investigated in terms of resonance frequency and frequency stability (Allan deviation). Liquids of different densities are injected in the device and, from the shift of the resonance peaks, the mass responsivity of the resonators is assessed to be up to 3.90 mHz/ag. To the best of our knowledge, the devices here presented are the first example of suspended nanochannel resonators with a channel height as low as 50 nm fabricated with a top-down approach.

AB - Suspended nanochannel resonators (SNRs) are promising devices able to characterize mass down to the attogram scale, thus being able to detect nanoparticles or biomolecules. In this paper, we present a flexible fabrication process for SNRs based on a sacrificial layer approach that allows to easily tailor the dimensions of the nanochannel by changing the thickness of the sacrificial layer or its patterning during the lithographic step. The resonance properties of the fabricated SNR are investigated in terms of resonance frequency and frequency stability (Allan deviation). Liquids of different densities are injected in the device and, from the shift of the resonance peaks, the mass responsivity of the resonators is assessed to be up to 3.90 mHz/ag. To the best of our knowledge, the devices here presented are the first example of suspended nanochannel resonators with a channel height as low as 50 nm fabricated with a top-down approach.

U2 - 10.1016/j.mee.2020.111395

DO - 10.1016/j.mee.2020.111395

M3 - Article

JO - Microelectronic Engineering

JF - Microelectronic Engineering

ER -

Fabrication of clamped-clamped beam resonators with embedded fluidic nanochannel

Abstract

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