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Encapsulated laser-induced graphene flexible piezo-resistive sensors for speech recognition

Encapsulated laser-induced graphene flexible piezo-resistive sensors for speech recognition
Encapsulated laser-induced graphene flexible piezo-resistive sensors for speech recognition
Traditional sound detection systems comprised of capacitive microphones and PZT transducers are costly for impermanent healthcare monitoring. In recent times, an increasing amount of scholarly interest focuses on the utilisation of laser-induced graphene (LIG) materials due to their capacity to freely customise sensor patterns from carbon substrates. In order to reduce the cost of the device and facilitate its integration with wearable electronics, we present a promising LIG sensor design with nontoxic medical-grade adhesive encapsulation for wearable sound recognition. After encapsulation, the LIG sensor achieves a sheet resistance of approximately 300 Ω/sq. The LIG sensor with encapsulation has a fractional change in resistance within 20% after 1000 bending cycles. The LIG-based throat sound detection design shows notable advantages including one-step fabrication, high sensitivity, good flexibility, and low cost, revealing a great deal of promise for assisting the disabled and integrating with the future wearable healthcare sensing platform.
180-183
IEEE
Chen, Xue
78813301-5484-4b91-9291-31da562d5bff
Patil, Ishant G.
baed45a1-64d1-493a-bce2-5606e9491ec0
Kou, Ronan
b2acb80d-9112-4bf0-8fb5-a191a06d0729
Tan, Kei Kheng
93cf5b9f-74c3-427b-83e8-8d17daff45c4
Lim, Junrui
9d2140e8-f97c-4411-9650-1326d2ac6e59
Hoo, Ren Yii
4e5f6ace-ad94-4df7-bfaf-fbb6e044dcaf
Ling, Ting Yang
c985f2ee-c76b-4559-b9ff-9bcddda8a3cb
Gan, Khong Wui
b0c1e988-d375-4bbc-acdc-c77a6da1f904
Pu, Suan Hui
8b46b970-56fd-4a4e-8688-28668f648f43
Chen, Xue
78813301-5484-4b91-9291-31da562d5bff
Patil, Ishant G.
baed45a1-64d1-493a-bce2-5606e9491ec0
Kou, Ronan
b2acb80d-9112-4bf0-8fb5-a191a06d0729
Tan, Kei Kheng
93cf5b9f-74c3-427b-83e8-8d17daff45c4
Lim, Junrui
9d2140e8-f97c-4411-9650-1326d2ac6e59
Hoo, Ren Yii
4e5f6ace-ad94-4df7-bfaf-fbb6e044dcaf
Ling, Ting Yang
c985f2ee-c76b-4559-b9ff-9bcddda8a3cb
Gan, Khong Wui
b0c1e988-d375-4bbc-acdc-c77a6da1f904
Pu, Suan Hui
8b46b970-56fd-4a4e-8688-28668f648f43

Chen, Xue, Patil, Ishant G., Kou, Ronan, Tan, Kei Kheng, Lim, Junrui, Hoo, Ren Yii, Ling, Ting Yang, Gan, Khong Wui and Pu, Suan Hui (2023) Encapsulated laser-induced graphene flexible piezo-resistive sensors for speech recognition. In 2023 IEEE International Conference on Sensors and Nanotechnology (SENNANO). IEEE. pp. 180-183 . (doi:10.1109/SENNANO57767.2023.10352566).

Record type: Conference or Workshop Item (Paper)

Abstract

Traditional sound detection systems comprised of capacitive microphones and PZT transducers are costly for impermanent healthcare monitoring. In recent times, an increasing amount of scholarly interest focuses on the utilisation of laser-induced graphene (LIG) materials due to their capacity to freely customise sensor patterns from carbon substrates. In order to reduce the cost of the device and facilitate its integration with wearable electronics, we present a promising LIG sensor design with nontoxic medical-grade adhesive encapsulation for wearable sound recognition. After encapsulation, the LIG sensor achieves a sheet resistance of approximately 300 Ω/sq. The LIG sensor with encapsulation has a fractional change in resistance within 20% after 1000 bending cycles. The LIG-based throat sound detection design shows notable advantages including one-step fabrication, high sensitivity, good flexibility, and low cost, revealing a great deal of promise for assisting the disabled and integrating with the future wearable healthcare sensing platform.

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Published date: 19 December 2023

Identifiers

Local EPrints ID: 487822
URI: http://eprints.soton.ac.uk/id/eprint/487822
PURE UUID: 2031e5ba-50dd-49b8-a6fe-6fca3bf37c09
ORCID for Suan Hui Pu: ORCID iD orcid.org/0000-0002-3335-8880

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Date deposited: 05 Mar 2024 18:47
Last modified: 18 Mar 2024 03:47

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Contributors

Author: Xue Chen
Author: Ishant G. Patil
Author: Ronan Kou
Author: Kei Kheng Tan
Author: Junrui Lim
Author: Ren Yii Hoo
Author: Ting Yang Ling
Author: Khong Wui Gan
Author: Suan Hui Pu ORCID iD

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