Stretchable piezoelectric sensing systems for self-powered and wireless health monitoring
Stretchable piezoelectric sensing systems for self-powered and wireless health monitoring
Continuous monitoring of human physiological signals is critical to managing personal healthcare by early detection of health disorders. Wearable and implantable devices are attracting growing attention as they show great potential for real-time recording of physiological conditions and body motions. Conventional piezoelectric sensors have the advantage of potentially being self-powered, but have limitations due to their intrinsic lack of stretchability. Herein, a kirigami approach to realize a novel stretchable strain sensor is introduced through a network of cut patterns in a piezoelectric thin film, exploiting the anisotropic and local bending that the patterns induce. The resulting pattern simultaneously enhances the electrical performance of the film and its stretchability while retaining the mechanical integrity of the underlying materials. The power output is enhanced from the mechano-electric piezoelectric sensing effect by introducing an intersegment, through-plane, electrode pattern. By additionally integrating wireless electronics, this sensing network could work in an entirely battery-free mode. The kirigami stretchable piezoelectric sensor is demonstrated in cardiac monitoring and wearable body tracking applications. The integrated soft, stretchable, and biocompatible sensor demonstrates excellent in vitro and ex vivo performances and provides insights for the potential use in myriad biomedical and wearable health monitoring applications.
kirigami, metamaterials, near-filed communication, piezoelectric sensors
Sun, Rujie
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Carreira, Sara Correia
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Chen, Yan
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Xiang, Chaoqun
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Xu, Lulu
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Zhang, Bing
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Chen, Mudan
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Farrow, Ian
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Scarpa, Fabrizio
684472c3-1a28-478a-a388-5fd896986c1d
Rossiter, Jonathan
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10 May 2019
Sun, Rujie
e3dad16d-6c79-4972-8378-edca28a3babd
Carreira, Sara Correia
39b9cf5a-66ef-44f0-afe5-694084ad3032
Chen, Yan
00fd25f2-4d03-44eb-8a4b-57fbd65df29b
Xiang, Chaoqun
07cbed38-eb13-42dd-b305-13207f18de64
Xu, Lulu
8daadc9f-cedf-4ae6-beac-0bb0330ca60c
Zhang, Bing
0dde2328-8e0b-416f-8d40-07b245d9b229
Chen, Mudan
3f6a53b5-7a91-43a6-b59b-f774c96cec97
Farrow, Ian
3c341722-861c-47b1-a821-4c1b7afbf471
Scarpa, Fabrizio
684472c3-1a28-478a-a388-5fd896986c1d
Rossiter, Jonathan
64caa0df-19e0-40c8-ab69-7021de665c39
Sun, Rujie, Carreira, Sara Correia, Chen, Yan, Xiang, Chaoqun, Xu, Lulu, Zhang, Bing, Chen, Mudan, Farrow, Ian, Scarpa, Fabrizio and Rossiter, Jonathan
(2019)
Stretchable piezoelectric sensing systems for self-powered and wireless health monitoring.
Advanced Materials Technologies, 4 (5), [1900100].
(doi:10.1002/admt.201900100).
Abstract
Continuous monitoring of human physiological signals is critical to managing personal healthcare by early detection of health disorders. Wearable and implantable devices are attracting growing attention as they show great potential for real-time recording of physiological conditions and body motions. Conventional piezoelectric sensors have the advantage of potentially being self-powered, but have limitations due to their intrinsic lack of stretchability. Herein, a kirigami approach to realize a novel stretchable strain sensor is introduced through a network of cut patterns in a piezoelectric thin film, exploiting the anisotropic and local bending that the patterns induce. The resulting pattern simultaneously enhances the electrical performance of the film and its stretchability while retaining the mechanical integrity of the underlying materials. The power output is enhanced from the mechano-electric piezoelectric sensing effect by introducing an intersegment, through-plane, electrode pattern. By additionally integrating wireless electronics, this sensing network could work in an entirely battery-free mode. The kirigami stretchable piezoelectric sensor is demonstrated in cardiac monitoring and wearable body tracking applications. The integrated soft, stretchable, and biocompatible sensor demonstrates excellent in vitro and ex vivo performances and provides insights for the potential use in myriad biomedical and wearable health monitoring applications.
Text
Adv Materials Technologies - 2019 - Sun - Stretchable Piezoelectric Sensing Systems for Self‐Powered and Wireless Health
- Version of Record
More information
e-pub ahead of print date: 24 February 2019
Published date: 10 May 2019
Keywords:
kirigami, metamaterials, near-filed communication, piezoelectric sensors
Identifiers
Local EPrints ID: 486767
URI: http://eprints.soton.ac.uk/id/eprint/486767
ISSN: 2365-709X
PURE UUID: fedf0901-9a54-4f14-b21e-3975427af465
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Date deposited: 06 Feb 2024 17:32
Last modified: 17 Mar 2024 07:24
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Contributors
Author:
Rujie Sun
Author:
Sara Correia Carreira
Author:
Yan Chen
Author:
Chaoqun Xiang
Author:
Lulu Xu
Author:
Bing Zhang
Author:
Mudan Chen
Author:
Ian Farrow
Author:
Fabrizio Scarpa
Author:
Jonathan Rossiter
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