DocumentCode
1247622
Title
Coupled determination of gravimetric and elastic effects on two resonant chemical sensors: Love wave and microcantilever platforms
Author
Fadel, L. ; Zimmermann, Christian ; Dufour, Isabelle ; Dejous, C. ; Rebiere, D.
Author_Institution
Lab. IXL, Bordeaux I Univ., Talence, France
Volume
52
Issue
2
fYear
2005
Firstpage
297
Lastpage
303
Abstract
The objective of this paper is to couple theoretical and experimental results from microcantilevers and Love-wave acoustic devices in order to identify and separate mass loading effects from elastic effects. This is important in the perspective of sensing applications. For that, a thin-film polymer is deposited on both resonant platforms. It is demonstrated that microcantilevers are essentially mass sensitive. They allow one to determine the polymer layer thickness, which is validated by optical profilometry measurements. Then, taking into account this thickness, theoretical modeling and experimental measurements with Love-wave devices permit one to estimate an equivalent elastic shear modulus of the thin-film polymer at high frequency. Results are interesting if one is to fully understand and optimize (bio)chemical sensor responses.
Keywords
Love waves; chemical sensors; polymer films; shear modulus; surface acoustic wave sensors; thin films; Love wave acoustic devices; elastic effects; elastic shear modulus; gravimetric effects; mass loading effects; microcantilevers; optical profilometry; polymer layer thickness; resonant chemical sensors; sensing applications; thin film polymer; Acoustic devices; Biomedical optical imaging; Chemical sensors; Frequency estimation; Optical polymers; Optical sensors; Polymer films; Resonance; Sputtering; Thickness measurement;
fLanguage
English
Journal_Title
Ultrasonics, Ferroelectrics, and Frequency Control, IEEE Transactions on
Publisher
ieee
ISSN
0885-3010
Type
jour
DOI
10.1109/TUFFC.2005.1406555
Filename
1406555
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