Facile Fabrication of “Tacky”, Stretchable, and Aligned Carbon Nanotube Sheet-Based Electronics for On-Skin Health Monitoring

Point-of-care monitoring of physiological signals such as electrocardiogram, electromyogram, and electroencephalogram is essential for prompt disease diagnosis and quick treatment, which can be realized through advanced skin-worn electronics. However, it is still challenging to design an intimate an...

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Veröffentlicht in:	ACS applied materials & interfaces 2023-12, Vol.15 (50), p.58746-58760
Hauptverfasser:	Nguyen, Duy Van, Mills, Dean, Tran, Canh-Dung, Nguyen, Thanh, Nguyen, Hung, Tran, Thi Lap, Song, Pingan, Phan, Hoang-Phuong, Nguyen, Nam-Trung, Dao, Dzung Viet, Bell, John, Dinh, Toan
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Sprache:	eng
Schlagworte:	Electronics Epidermis Functional Nanostructured Materials (including low-D carbon) Nanotubes, Carbon Skin Wearable Electronic Devices
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container_title	ACS applied materials & interfaces
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creator	Nguyen, Duy Van Mills, Dean Tran, Canh-Dung Nguyen, Thanh Nguyen, Hung Tran, Thi Lap Song, Pingan Phan, Hoang-Phuong Nguyen, Nam-Trung Dao, Dzung Viet Bell, John Dinh, Toan
description	Point-of-care monitoring of physiological signals such as electrocardiogram, electromyogram, and electroencephalogram is essential for prompt disease diagnosis and quick treatment, which can be realized through advanced skin-worn electronics. However, it is still challenging to design an intimate and nonrestrictive skin-contact device for physiological measurements with high fidelity and artifact tolerance. This research presents a facile method using a “tacky” surface to produce a tight interface between the ACNT skin-like electronic and the skin. The method provides the skin-worn electronic with a stretchability of up to 70% strain, greater than that of most common epidermal electrodes. Low-density ACNT bundles facilitate the infiltration of adhesive and improve the conformal contact between the ACNT sheet and the skin, while dense ACNT bundles lessen this effect. The stretchability and conformal contact allow the ACNT sheet-based electronics to create a tight interface with the skin, which enables the high-fidelity measurement of physiological signals (the Pearson’s coefficient of 0.98) and tolerance for motion artifacts. In addition, our method allows the use of degradable substrates to enable reusability and degradability of the electronics based on ACNT sheets, integrating “green” properties into on-skin electronics.
doi_str_mv	10.1021/acsami.3c13541
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subjects	Electronics Epidermis Functional Nanostructured Materials (including low-D carbon) Nanotubes, Carbon Skin Wearable Electronic Devices
title	Facile Fabrication of “Tacky”, Stretchable, and Aligned Carbon Nanotube Sheet-Based Electronics for On-Skin Health Monitoring
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