Nacre-Inspired MXene Nanocomposite-based Strain Sensor with Ultrahigh Sensitivity in a Small Strain Range for Parkinson’s Disease Diagnosis

Du, Yuzhang; Liu, Yichen; Lu, Wenxuan; Zhang, Xuan; Wang, Aoao; Kong, Jie

doi:10.1021/acsami.3c13815

ACS Appl. Mater. Interfaces

2023

DOI: 10.1021/acsami.3c13815

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Nacre-Inspired MXene Nanocomposite-based Strain Sensor with Ultrahigh Sensitivity in a Small Strain Range for Parkinson’s Disease Diagnosis

Yuzhang Du,

Yichen Liu,

Wenxuan Lu

et al.

Abstract: Nowadays, chronic diseases are the primary threat to public health and are getting younger. By taking the advantages of continuousness, convenience, and real-time response, wearable strain sensors have been given great attention to diagnose chronic diseases via analyzing the patient's health state. However, most physiological signals, such as limb tremor of Parkinson's disease, microexpression, and slight joint movement, are tiny and difficult to be detected. Therefore, the development of strain sensors charac… Show more

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Cited by 5 publications

References 60 publications

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A high‐performance stretchable strain sensors with hierarchically gradient morphology of filler network

Zhang,

Xiang,

Liu

et al. 2024

J of Applied Polymer Sci

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In recent years, stretchable strain sensors have received increasing attention in areas such as human motion detection and soft robotics. However, how to simultaneously improve the sensitivity and operating range of them remains one of the most important challenges. In order to solve this challenge, in this study, nickel‐coated graphite (NCG)/carbon nanotubes (CNTs) hybrid conductive networks of stretchable strain sensors PNCs with graded degree of sedimentation were constructed in PDMS using the sedimentation method. Due to the difference in packing density and packing morphology, NCG mainly stays in the middle and lower layers, forming a partially‐sedimented state, whereas the CNTs are close to uniformly dispersed, and such partially settled NCG network is especially critical. Based on this, the obtained composite PNCs have high sensitivity, with a GF value as high as 1.48 × 104 in the 0%–25% strain range and an operating range of 224.8%, which achieves a good recognition and detection of the full range of human body movements. This work provides a new process for the preparation of high‐performance stretchable strain sensors.

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A high‐performance stretchable strain sensors with hierarchically gradient morphology of filler network

Zhang,

Xiang,

Liu

et al. 2024

J of Applied Polymer Sci

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Spindle-knot reinforced liquid metal-based strain sensor with excellent stretchability and stability

Wei,

Zhang,

Pan

et al. 2025

Chemical Engineering Journal

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Unveiling the energy-harnessing properties of free-standing Lithium Niobate/PVDF nanocomposite film toward biomechanical and wave energy harvesting

Natraj,

Mohan,

Pazhamalai

et al. 2024

Surfaces and Interfaces

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Nacre-Inspired MXene Nanocomposite-based Strain Sensor with Ultrahigh Sensitivity in a Small Strain Range for Parkinson’s Disease Diagnosis

Cited by 5 publications

References 60 publications

A high‐performance stretchable strain sensors with hierarchically gradient morphology of filler network

A high‐performance stretchable strain sensors with hierarchically gradient morphology of filler network

Spindle-knot reinforced liquid metal-based strain sensor with excellent stretchability and stability

Unveiling the energy-harnessing properties of free-standing Lithium Niobate/PVDF nanocomposite film toward biomechanical and wave energy harvesting

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