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Microsystem Technologies

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19.07.2017 | Technical Paper

Performance of I-shaped piezoelectric-excited millimeter-sized cantilever in sensing applications: modeling, simulation and experiment

verfasst von: Mehrdad Aghamohammadi, Mahnaz Shamshirsaz, Amir Hossein Rezaie

Erschienen in: Microsystem Technologies | Ausgabe 1/2018

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Abstract

Detection sensitivity has a key role in the realm of piezoelectric-excited millimeter-sized cantilever (PEMC) sensors. Operating principle of these sensors is based on measuring the electrical impedance of piezoelectric layer attached to the base cantilever. While most of studies in this area have focused on sensitivity improvement by minimizing the dimensions of the base cantilever, in this paper, effect of modifying the cross-section shape of the cantilever on enhancing the detection sensitivity of these sensors has been studied. To this end, a new PEMC sensor with I-shaped cross-section was proposed. Performance of this sensor in detecting the tiny masses added on the cantilever tip and also detecting the liquid level changes has been explored by theoretical modelling, finite element simulations and via experiments. The achieved results were compared with the detection sensitivities of the sensor with the same dimensions but rectangular-shaped cross section. Theoretical and simulation results were in good agreement with experimental outcomes. By changing the cross section of the base cantilever from rectangular-shaped to I-shaped, mass detection and liquid level detection sensitivities achieved via experiments, increased up to 2.04 and 3.75 times, respectively.

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Campbell GA, Mutharasan R (2005a) Detection and quantification of proteins using self-excited PZT-glass millimeter-sized cantilever. Biosens Bioelectron 21:597–607CrossRef

Campbell GA, Mutharasan R (2005b) Sensing of liquid level at micron resolution using self-excited millimeter-sized PZT-cantilever. Sens Actuators A 122:326–334CrossRef

Gurjar M, Jalili N (2007) Toward ultrasmall mass detection using adaptive self-sensing piezoelectrically driven microcantilevers. IEEE/ASME Trans Mechatron 12:680–688CrossRef

Jeong WY, Shih WY, Mutharasan R, Shih WH (2003) In situ cell detection using piezoelectric lead zirconate titanate-stainless steel cantilevers. J Appl Phys 93:619–625CrossRef

Johnson BN, Mutharasan R (2011) The origin of low-order and high-order impedance-coupled resonant modes in piezoelectric-excited millimeter-sized cantilever (PEMC) sensors: experiments and finite element models. Sens Actuators B 155:868–877CrossRef

Maraldo D, Mutharasan R (2010) Mass-change sensitivity of high-order mode of piezoelectric-excited millimeter-sized cantilever(PEMC) sensors: theory and experiments. Sens Actuators B 143:731–739CrossRef

Maroufi M, Shamshirsaz M (2012) Size effect on performance of resonant piezoelectric millimeter-sized cantilevers using as liquid level detection sensors. In: Proc of DTIP2012. Cannas, pp 42–46

Maroufi M, Shamshirsaz M (2015) Resonant behavior study of PZT sensor partially immersed in liquid using PSO method: modeling and experiment. Analog Integr Circ Sig Process 82:583–597CrossRef

Rijal K, Mutharasan R (2007) Piezoelectric-excited millimeter-sized cantilever sensors detect density differences of a few micrograms/mL in liquid medium. Sens Actuators B 124:237–244CrossRef

Rosario R, Mutharasan R (2014) Piezoelectric excited millimeter sized cantilever sensors for measuring gas density changes. Sens Actuators B 192:99–104CrossRef

Shen Z, Shih WY, Shih WH (2006) Mass detection sensitivity of piezoelectric cantilevers with a nonpiezoelectric extension. Rev Sci Instrum 77:065101CrossRef

Shih WY, Li X, Gu H, Shih WH, Aksay IA (2001) Simultaneous liquid viscosity and density determination with piezoelectric unimorph cantilevers. J Appl Phys 89:1497–1505CrossRef

Van Eysden CA, Sader JE (2007) Frequency response of cantilever beams immersed in viscous fluids with applications to the atomic force microscope: arbitrary mode order. J Appl Phy 101(4):044908CrossRef

Yang K, Li Z, Jing Y, Chen D, Ye T (2009) Research on the resonant frequency formula of V-shaped cantilevers. In: 2009 4th IEEE International Conference on Nano/Micro Engineered and Molecular Systems

Zhao J, Gao R, Liu S, Huang Y (2014) A new sensitivity-improving method for piezoelectric resonance mass sensors through cantilever cross-section modification. IEEE Trans Ind Electron 61:1612–1621CrossRef

Zhao J, Zhang Y, Gao R, Liu S (2015) A new sensitivity improving approach for mass sensors through integrated optimization of both cantilever surface profile and cross-section. Sens Actuators B 206:343–350CrossRef

Titel: Performance of I-shaped piezoelectric-excited millimeter-sized cantilever in sensing applications: modeling, simulation and experiment
verfasst von: Mehrdad Aghamohammadi
Mahnaz Shamshirsaz
Amir Hossein Rezaie
Publikationsdatum: 19.07.2017
Verlag: Springer Berlin Heidelberg
Erschienen in: Microsystem Technologies / Ausgabe 1/2018
Print ISSN: 0946-7076
Elektronische ISSN: 1432-1858
DOI: https://doi.org/10.1007/s00542-017-3481-y

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