A flexible, stretchable and wearable strain sensor based on physical eutectogels for deep learning-assisted motion identification

Liu, Dandan; Wang, Shiyu; Wang, Hui; Zhang, Zhenyu; Wang, Haibo

doi:10.1039/d4tb00809j

J. Mater. Chem. B

2024

DOI: 10.1039/d4tb00809j

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A flexible, stretchable and wearable strain sensor based on physical eutectogels for deep learning-assisted motion identification

Dandan Liu,

Shiyu Wang,

Hui Wang

et al.

Abstract: Physical eutectogels as a newly emerging type of conductive gel have gained extensive interest for the next generation multifunctional electronic devices. Nevertheless, some obstacles, including weak mechanical performance, low self-adhesive...

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Cited by 2 publications

References 63 publications

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Recent advances in flexible sensors: From sensing materials to detection modes

Qin,

Tang,

Zeng

et al. 2024

TrAC Trends in Analytical Chemistry

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Recent advances in flexible sensors: From sensing materials to detection modes

Qin,

Tang,

Zeng

et al. 2024

TrAC Trends in Analytical Chemistry

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AI-Aided Gait Analysis with a Wearable Device Featuring a Hydrogel Sensor

Hasan,

D’auria,

Mahmud

et al. 2024

Sensors

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Wearable devices have revolutionized real-time health monitoring, yet challenges persist in enhancing their flexibility, weight, and accuracy. This paper presents the development of a wearable device employing a conductive polyacrylamide–lithium chloride–MXene (PLM) hydrogel sensor, an electronic circuit, and artificial intelligence (AI) for gait monitoring. The PLM sensor includes tribo-negative polydimethylsiloxane (PDMS) and tribo-positive polyurethane (PU) layers, exhibiting extraordinary stretchability (317% strain) and durability (1000 cycles) while consistently delivering stable electrical signals. The wearable device weighs just 23 g and is strategically affixed to a knee brace, harnessing mechanical energy generated during knee motion which is converted into electrical signals. These signals are digitized and then analyzed using a one-dimensional (1D) convolutional neural network (CNN), achieving an impressive accuracy of 100% for the classification of four distinct gait patterns: standing, walking, jogging, and running. The wearable device demonstrates the potential for lightweight and energy-efficient sensing combined with AI analysis for advanced biomechanical monitoring in sports and healthcare applications.

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A flexible, stretchable and wearable strain sensor based on physical eutectogels for deep learning-assisted motion identification

Abstract: Physical eutectogels as a newly emerging type of conductive gel have gained extensive interest for the next generation multifunctional electronic devices. Nevertheless, some obstacles, including weak mechanical performance, low self-adhesive...

Cited by 2 publications

References 63 publications

Recent advances in flexible sensors: From sensing materials to detection modes

Recent advances in flexible sensors: From sensing materials to detection modes

AI-Aided Gait Analysis with a Wearable Device Featuring a Hydrogel Sensor

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