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Electrical capacitance with meshed electrodes for piezo- and pyro-electric energy harvesting applications

Electrical capacitance with meshed electrodes for piezo- and pyro-electric energy harvesting applications
Electrical capacitance with meshed electrodes for piezo- and pyro-electric energy harvesting applications
When utilizing a meshed electrode design for piezo-and pyro-electric harvesting, there are changes in the electrical capacitance with mesh density and surface electrode coverage. For square meshed electrodes, geometrical limits are identified and the applicability of the parallel plate assumption is verified. The reduction of electrode coverage and element capacitance is examined with respect to the aspect ratio feature size relative to the dielectric thickness. Finite element analysis reveals the presence of electric fields that are four times stronger with the meshed electrode design compared to fully covered electrodes. The electrical energy stored in the harvester with meshed electrodes, and its availability for discharge, is only 4 % smaller than with a fully covered design.
Zabek, D.
7281d29f-829d-4f54-89a2-ee4f48a357af
Bowen, C.R.
Taylor, J.
f3a9f1ba-4735-4aa4-9767-20c0ce90f9ca
Zabek, D.
7281d29f-829d-4f54-89a2-ee4f48a357af
Bowen, C.R.
Taylor, J.
f3a9f1ba-4735-4aa4-9767-20c0ce90f9ca

Zabek, D., Bowen, C.R. and Taylor, J. (2015) Electrical capacitance with meshed electrodes for piezo- and pyro-electric energy harvesting applications. In 2015 Joint IEEE International Symposium on the Applications of Ferroelectric, International Symposium on Integrated Functionalities and Piezoelectric Force Microscopy Workshop, ISAF/ISIF/PFM 2015. (doi:10.1109/ISAF.2015.7172674).

Record type: Conference or Workshop Item (Paper)

Abstract

When utilizing a meshed electrode design for piezo-and pyro-electric harvesting, there are changes in the electrical capacitance with mesh density and surface electrode coverage. For square meshed electrodes, geometrical limits are identified and the applicability of the parallel plate assumption is verified. The reduction of electrode coverage and element capacitance is examined with respect to the aspect ratio feature size relative to the dielectric thickness. Finite element analysis reveals the presence of electric fields that are four times stronger with the meshed electrode design compared to fully covered electrodes. The electrical energy stored in the harvester with meshed electrodes, and its availability for discharge, is only 4 % smaller than with a fully covered design.

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Published date: 24 May 2015
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Identifiers

Local EPrints ID: 496753
URI: http://eprints.soton.ac.uk/id/eprint/496753
DOI: doi:10.1109/ISAF.2015.7172674
PURE UUID: 5f6b985b-dcc8-4b8a-a39b-677309f5b722
ORCID for D. Zabek: ORCID iD orcid.org/0000-0001-5856-5301

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Date deposited: 07 Jan 2025 23:14
Last modified: 10 Jan 2025 03:21

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Contributors

Author: D. Zabek ORCID iD
Author: C.R. Bowen
Author: J. Taylor

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