A randomly structured composite PDMS/PTFE ferroelectret soft smart material
A randomly structured composite PDMS/PTFE ferroelectret soft smart material
Polydimethylsiloxane (PDMS) based ferroelectrets are an attractive material for the fabrication of human-based applications given their soft and compliant mechanical properties. The typical fabrication approach is to exploit specifically engineered void geometries fabricated by moulding and bonding layers together. Charge instability can be addressed by the addition of polytetrafluoroethylene (PTFE) particles but this prevents the bonding of PDMS films. This paper illustrates a new approach to obtaining PDMS ferroelectret with random voids by promoting and trapping bubbles to create cavities within a PDMS film. A mathematical model is presented to explore the connection between the percentage of trapped bubbles in the PDMS and the equivalent
piezoelectric coefficient, d33e. The process is compatible with the addition of PTFE powder to the PDMS formulation and a ratio of PTFE to PDMS of 1:3 by weight was found to increase performance achieving an initial d33e of 384 pC/N which reached a steady state value of 186 pC/N measured after 2 months after poling. The energy harvesting potential of the random void PDMS/PTFE ferroelectret was explored by cyclically compressing with a force of 300 N applied at 1 Hz. The output of the ferroelectret was found to charge a 10μF capacitor to 0.26 V after 40 seconds. The ferroelectret's performance as a pressure sensor from 0 to 300 N was explored, and the optimum formulation achieved a sensitivity of 25.2 mV/N, a nonlinearity of 4%, and hysteresis of 4.2%, demonstrating a considerable improvement over the pure PDMS ferroelectret.
Ferroelectret, PDMS, smart material, energy harvesting, pressure sensing
Zhang, Mingming
25f0b4c0-ad9d-4836-b5ba-fd6b6cf145cf
Shi, Junjie
3e2ba75e-a773-478a-aacc-5d926bfd1669
Sun, Xinlong
23b3e8db-3a50-4817-99be-19b5a85cb56e
Yong, Sheng
688cbcf0-b32e-4b2b-9891-a0e0e1f59d71
Beeby, Stephen
ba565001-2812-4300-89f1-fe5a437ecb0d
Zhang, Mingming
25f0b4c0-ad9d-4836-b5ba-fd6b6cf145cf
Shi, Junjie
3e2ba75e-a773-478a-aacc-5d926bfd1669
Sun, Xinlong
23b3e8db-3a50-4817-99be-19b5a85cb56e
Yong, Sheng
688cbcf0-b32e-4b2b-9891-a0e0e1f59d71
Beeby, Stephen
ba565001-2812-4300-89f1-fe5a437ecb0d
Zhang, Mingming, Shi, Junjie, Sun, Xinlong, Yong, Sheng and Beeby, Stephen
(2025)
A randomly structured composite PDMS/PTFE ferroelectret soft smart material.
Smart Materials and Structures.
(In Press)
Abstract
Polydimethylsiloxane (PDMS) based ferroelectrets are an attractive material for the fabrication of human-based applications given their soft and compliant mechanical properties. The typical fabrication approach is to exploit specifically engineered void geometries fabricated by moulding and bonding layers together. Charge instability can be addressed by the addition of polytetrafluoroethylene (PTFE) particles but this prevents the bonding of PDMS films. This paper illustrates a new approach to obtaining PDMS ferroelectret with random voids by promoting and trapping bubbles to create cavities within a PDMS film. A mathematical model is presented to explore the connection between the percentage of trapped bubbles in the PDMS and the equivalent
piezoelectric coefficient, d33e. The process is compatible with the addition of PTFE powder to the PDMS formulation and a ratio of PTFE to PDMS of 1:3 by weight was found to increase performance achieving an initial d33e of 384 pC/N which reached a steady state value of 186 pC/N measured after 2 months after poling. The energy harvesting potential of the random void PDMS/PTFE ferroelectret was explored by cyclically compressing with a force of 300 N applied at 1 Hz. The output of the ferroelectret was found to charge a 10μF capacitor to 0.26 V after 40 seconds. The ferroelectret's performance as a pressure sensor from 0 to 300 N was explored, and the optimum formulation achieved a sensitivity of 25.2 mV/N, a nonlinearity of 4%, and hysteresis of 4.2%, demonstrating a considerable improvement over the pure PDMS ferroelectret.
Text
A randomly structured composite PDMS_PTFE ferroelectret soft smart material_2nd revision
- Accepted Manuscript
More information
Accepted/In Press date: 12 February 2025
Keywords:
Ferroelectret, PDMS, smart material, energy harvesting, pressure sensing
Identifiers
Local EPrints ID: 502509
URI: http://eprints.soton.ac.uk/id/eprint/502509
ISSN: 0964-1726
PURE UUID: f3d057fc-a3bf-4b7d-a5a7-fe3ce4bb31d2
Catalogue record
Date deposited: 27 Jun 2025 16:42
Last modified: 22 Aug 2025 02:18
Export record
Contributors
Author:
Mingming Zhang
Author:
Junjie Shi
Author:
Xinlong Sun
Author:
Sheng Yong
Author:
Stephen Beeby
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics