Nanomaterials (Jun 2024)

Flexible Mechanical Sensors Fabricated with Graphene Oxide-Coated Commercial Silk

  • Hyun-Seok Jang,
  • Ki Hoon Lee,
  • Byung Hoon Kim

DOI
https://doi.org/10.3390/nano14121000
Journal volume & issue
Vol. 14, no. 12
p. 1000

Abstract

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Many studies on flexible strain and pressure sensors have been reported due to growing interest in wearable devices for healthcare purposes. Here, we present flexible pressure and strain (motion) sensors prepared with only graphene oxide (GO) and commercial silk fabrics and yarns. The pressure sensors were fabricated by simply dipping the silk fabric into GO solution followed by applying a thermal treatment at 400 °C to obtain reduced GO (rGO). The pressure sensors were made from rGO-coated fabrics, which were stacked in three, five, and seven layers. A super-sensitivity of 2.58 × 103 kPa−1 at low pressure was observed in the seven-layer pressure sensor. The strain sensors were obtained from rGO-coated twisted silk yarns whose gauge factor was 0.307. Although this value is small or comparable to the values for other sensors, it is appropriate for motion sensing. The results of this study show a cost-effective and simple method for the fabrication of pressure and motion sensors with commercial silk and GO.

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