Abstract
Modeling a Surface Acoustic Wave (SAW) sensor response as a chemosensor and not only as just an electronic transducer was performed with COMSOL Multiphysics. For this study, the SAW’s sensing area was functionalized with an ionic imprinted polymer (IIP), designed for the selective detection of lead ions. The idea consists in subdividing the IIP into elementary blocks whose physical properties can be modified separately. Three configurations have been envisaged: the IIP before and after lead ions extraction and the non-imprinted polymer (NIP). The generation of shear-horizontal waves on LiTaO3 piezoelectric substrate is confirmed by recording the displacement amplitude versus time, according to the three space directions. The sensors sensitivity is estimated from the delays induced by the incorporation of the lead ions in the IIP layer. To the best of our knowledge, this approach has never been presented in the literature.
Highlights
Surface Acoustic Wave (SAW) sensors are more and more investigated to detect chemical and biological species in liquid media
Multiphysics, 2D finite element models of SAW sensors based on piezoelectric thin films of aluminum-nitride (AlN) or zinc-oxide (ZnO) [1] and of YZ Lithium Niobate [2] were developed
[3] and ZnO [4] as guiding layers. This original study concerns the 3D simulation, using COMSOL Multiphysics, of a SAW sensor functionalized with a Pb(II) imprinted polymer
Summary
SAW sensors are more and more investigated to detect chemical and biological species in liquid media. Considerable attention has been paid to modeling SAW’s responses to understand the characteristics of surface acoustic waves generated in SAW devices. Multiphysics, 2D finite element models of SAW sensors based on piezoelectric thin films of aluminum-nitride (AlN) or zinc-oxide (ZnO) [1] and of YZ Lithium Niobate [2] were developed.
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