Simulation of SiO 2-based piezoresistive microcantilevers

Venkata Chivukula; Ming Wang; Hai-Feng Ji; Abdul Khaliq; Ji Fang; Kody Varahramyan

doi:10.1016/j.sna.2005.08.038

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Simulation of SiO 2-based piezoresistive microcantilevers

Journal article

Peer reviewed

Simulation of SiO 2-based piezoresistive microcantilevers

Venkata Chivukula, Ming Wang, Hai-Feng Ji, Abdul Khaliq, Ji Fang and Kody Varahramyan

Sensors and actuators. A. Physical, Vol.125(2), pp.526-533

10/01/2006

DOI: https://doi.org/10.1016/j.sna.2005.08.038

Abstract

Microcantilever

Piezoresistance

Surface stress

This article uses finite element design for optimization of piezoresistive Si covered SiO 2 microcantilevers. The maximum resistance changes were systematically investigated by varying piezoresistor geometries and doping concentration. Our simulation results show that both cantilever deflection displacement and Δ R/ R change decrease when the thickness of piezoresistors increases; the highest sensitivity can be obtained when the piezoresistor length is approximately 2/5 of the SiO 2 cantilever length; increase of both Si width and leg width result in decrease in cantilever deflection and sensitivity; the sensitivity of cantilevers with lower doping concentrations is more significant than those with higher doping concentrations. Temperature control is critical for thin piezoresistor in lowering the S/N ratio and increasing the sensitivity.

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Details

Title: Simulation of SiO 2-based piezoresistive microcantilevers
Creators - without role: Venkata Chivukula - Louisiana Tech University
Ming Wang - Louisiana Tech University
Hai-Feng Ji - Louisiana Tech University
Abdul Khaliq - Louisiana Tech University
Ji Fang - Louisiana Tech University
Kody Varahramyan - Louisiana Tech University
Publication Details: Sensors and actuators. A. Physical, Vol.125(2), pp.526-533
Publisher: Elsevier B.V
Identifiers: 9932116708331
Academic Unit: University Ha'il
Language: English
Resource Type: Journal article