Nonlinear-based MEMS sensors and active switches for gas detection

Adam Bouchaala; Nizar Jaber; Omar Yassine; Osama Shekhah; Valeriya Chernikova; Mohamed Eddaoudi; Mohammad I. Younis

doi:10.3390/s16060758

Nonlinear-based MEMS sensors and active switches for gas detection

Adam Bouchaala, Nizar Jaber, Omar Yassine, Osama Shekhah, Valeriya Chernikova, Mohamed Eddaoudi, Mohammad I. Younis^*

^*Corresponding author for this work

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

54 Scopus citations

Abstract

The objective of this paper is to demonstrate the integration of a MOF thin film on electrostatically actuated microstructures to realize a switch triggered by gas and a sensing algorithm based on amplitude tracking. The devices are based on the nonlinear response of micromachined clamped-clamped beams. The microbeams are coated with a metal-organic framework (MOF), namely HKUST-1, to achieve high sensitivity. The softening and hardening nonlinear behaviors of the microbeams are exploited to demonstrate the ideas. For gas sensing, an amplitude-based tracking algorithm is developed to quantify the captured quantity of gas. Then, a MEMS switch triggered by gas using the nonlinear response of the microbeam is demonstrated. Noise analysis is conducted, which shows that the switch has high stability against thermal noise. The proposed switch is promising for delivering binary sensing information, and also can be used directly to activate useful functionalities, such as alarming.

Original language	English
Article number	758
Journal	Sensors (Switzerland)
Volume	16
Issue number	6
DOIs	https://doi.org/10.3390/s16060758
State	Published - Jun 2016
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2016 by the authors; licensee MDPI, Basel, Switzerland.

Keywords

Active switch
Gas sensor
Metal-organic framework
Microbeam
Microcontroller
Nonlinear dynamics

ASJC Scopus subject areas

Analytical Chemistry
Biochemistry
Atomic and Molecular Physics, and Optics
Instrumentation
Electrical and Electronic Engineering

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10.3390/s16060758

Cite this

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title = "Nonlinear-based MEMS sensors and active switches for gas detection",

abstract = "The objective of this paper is to demonstrate the integration of a MOF thin film on electrostatically actuated microstructures to realize a switch triggered by gas and a sensing algorithm based on amplitude tracking. The devices are based on the nonlinear response of micromachined clamped-clamped beams. The microbeams are coated with a metal-organic framework (MOF), namely HKUST-1, to achieve high sensitivity. The softening and hardening nonlinear behaviors of the microbeams are exploited to demonstrate the ideas. For gas sensing, an amplitude-based tracking algorithm is developed to quantify the captured quantity of gas. Then, a MEMS switch triggered by gas using the nonlinear response of the microbeam is demonstrated. Noise analysis is conducted, which shows that the switch has high stability against thermal noise. The proposed switch is promising for delivering binary sensing information, and also can be used directly to activate useful functionalities, such as alarming.",

keywords = "Active switch, Gas sensor, Metal-organic framework, Microbeam, Microcontroller, Nonlinear dynamics",

author = "Adam Bouchaala and Nizar Jaber and Omar Yassine and Osama Shekhah and Valeriya Chernikova and Mohamed Eddaoudi and Younis, \{Mohammad I.\}",

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T1 - Nonlinear-based MEMS sensors and active switches for gas detection

AU - Bouchaala, Adam

AU - Jaber, Nizar

AU - Yassine, Omar

AU - Shekhah, Osama

AU - Chernikova, Valeriya

AU - Eddaoudi, Mohamed

AU - Younis, Mohammad I.

PY - 2016/6

Y1 - 2016/6

N2 - The objective of this paper is to demonstrate the integration of a MOF thin film on electrostatically actuated microstructures to realize a switch triggered by gas and a sensing algorithm based on amplitude tracking. The devices are based on the nonlinear response of micromachined clamped-clamped beams. The microbeams are coated with a metal-organic framework (MOF), namely HKUST-1, to achieve high sensitivity. The softening and hardening nonlinear behaviors of the microbeams are exploited to demonstrate the ideas. For gas sensing, an amplitude-based tracking algorithm is developed to quantify the captured quantity of gas. Then, a MEMS switch triggered by gas using the nonlinear response of the microbeam is demonstrated. Noise analysis is conducted, which shows that the switch has high stability against thermal noise. The proposed switch is promising for delivering binary sensing information, and also can be used directly to activate useful functionalities, such as alarming.

AB - The objective of this paper is to demonstrate the integration of a MOF thin film on electrostatically actuated microstructures to realize a switch triggered by gas and a sensing algorithm based on amplitude tracking. The devices are based on the nonlinear response of micromachined clamped-clamped beams. The microbeams are coated with a metal-organic framework (MOF), namely HKUST-1, to achieve high sensitivity. The softening and hardening nonlinear behaviors of the microbeams are exploited to demonstrate the ideas. For gas sensing, an amplitude-based tracking algorithm is developed to quantify the captured quantity of gas. Then, a MEMS switch triggered by gas using the nonlinear response of the microbeam is demonstrated. Noise analysis is conducted, which shows that the switch has high stability against thermal noise. The proposed switch is promising for delivering binary sensing information, and also can be used directly to activate useful functionalities, such as alarming.

KW - Active switch

KW - Gas sensor

KW - Metal-organic framework

KW - Microbeam

KW - Microcontroller

KW - Nonlinear dynamics

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DO - 10.3390/s16060758

M3 - Article

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JO - Sensors (Switzerland)

JF - Sensors (Switzerland)

IS - 6

M1 - 758

ER -

Nonlinear-based MEMS sensors and active switches for gas detection

Abstract

Bibliographical note

Keywords

ASJC Scopus subject areas

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