Comparison of surface transverse wave (STW) and shear horizontal acoustic plate mode (SHAPM) devices for biochemical sensors

Comparison of surface transverse wave (STW) and shear horizontal acoustic plate mode (SHAPM) devices for biochemical sensors

Surface transverse wave (STW) and shear horizontal acoustic plate mode (SHAPM) geometries have been proposed and demonstrated as potential biochemical sensors. The STW provides simplicity of instrumentation by virtue of its single acoustic mode of operation, while the SHAPM affords ease of packaging...

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Bibliographic Details
Published in:Proceedings of International Frequency Control Symposium pp. 147 - 155
Main Authors: Schweyer, M.G., Weaver, J.T., Andle, J.C., McAllister, D.J., French, L., Vetelino, J., Height, J.J.
Format: Conference Proceeding
Language:English
Published: IEEE 1997
Subjects:
Acoustic devices
Biosensors
Electronics packaging
Geometry
Humans
Instruments
Nanoscale devices
Surface acoustic wave devices
Surface acoustic waves
Surface waves
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Summary:Surface transverse wave (STW) and shear horizontal acoustic plate mode (SHAPM) geometries have been proposed and demonstrated as potential biochemical sensors. The STW provides simplicity of instrumentation by virtue of its single acoustic mode of operation, while the SHAPM affords ease of packaging since the electronics may be placed on the opposite surface from the liquid solution. First generation device designs using both technologies have previously demonstrated nanogram sensitivity using model biochemical systems such as human IgG/goat anti-human IgG and cytomegalovirus DNA. More recently, second generation devices have been designed and are being tested using bacteria and their toxins. This paper will outline the critical tradeoffs between the two approaches. Initial electrical properties and sensor results are reported.
ISBN:9780780337282
078033728X
DOI:10.1109/FREQ.1997.638536