4.8 Article

Bioinspired Self-Powered Piezoresistive Sensors for Simultaneous Monitoring of Human Health and Outdoor UV Light Intensity

Journal

ACS APPLIED MATERIALS & INTERFACES
Volume 14, Issue 4, Pages 5101-5111

Publisher

AMER CHEMICAL SOC
DOI: 10.1021/acsami.1c23604

Keywords

wearable sensors; motion monitoring; UV photodetector; cotton fiber; ZnO nanoarrays

Funding

  1. National Natural Science Foundation of China [21874022, 21675029]

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This article introduces a method for in situ synthesis of zinc oxide nanorod arrays on cotton and paper substrates treated with graphene, resulting in highly sensitive, flexible, wearable, and chemically stable strain sensors. Additionally, practical applications in human health activity monitoring and outdoor UV photo-indication are demonstrated.
The exact fabrication of precise three-dimensional structures for piezoresistive sensors necessitates superior manufacturing methods or tooling, which are accompanied by time-consuming processes and the potential for environmental harm. Herein, we demonstrated a method for in situ synthesis of zinc oxide nanorod (ZnO NR) arrays on graphene-treated cotton and paper substrates and constructed highly sensitive, flexible, wearable, and chemically stable strain sensors. Based on the structure of pine trees and needles in nature, the hybrid sensing layer consisted of graphene-attached cotton or paper fibers and ZnO NRs, and the results showed a high sensitivity of 0.389, 0.095, and 0.029 kPa(-1) and an ultra-wide linear range of 0-100 kPa of this sensor under optimal conditions. Our study found that water absorption and swelling of graphene fibers and the associated reduction of pore size and growth of zinc oxide were detrimental to pressure sensor performance. A random line model was developed to examine the effects of different hydrothermal times on sensor performance. Meanwhile, pulse detection, respiration detection, speech recognition, and motion detection, including finger movements, walking, and throat movements, were used to show their practical application in human health activity monitoring. In addition, monolithically grown ZnO NRs on graphene cotton sheets had been integrated into a flexible sensing platform for outdoor UV photo-indication, which is, to our knowledge, the first successful case of an integrated UV photo-detector and motion sensor. Due to its excellent strain detection and UV detection abilities, these strategies are a step forward in developing wearable sensors that are cost-controllable and high-performance.

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