Ecoflex-Passivated Graphene-Yarn Composite for a Highly Conductive and Stretchable Strain Sensor
- Authors
- Son, Wonkyeong; Kim, Kyu-Beom; Lee, Sangmin; Hyeon, Gibaek; Hwang, Kyung Gyun; Park, Wan jun
- Issue Date
- Oct-2019
- Publisher
- AMER SCIENTIFIC PUBLISHERS
- Keywords
- Passivated Graphene Composite; Graphene Strain Sensor; Strain Sensor; Conductive Yarn
- Citation
- JOURNAL OF NANOSCIENCE AND NANOTECHNOLOGY, v.19, no.10, pp.6690 - 6695
- Indexed
- SCIE
- Journal Title
- JOURNAL OF NANOSCIENCE AND NANOTECHNOLOGY
- Volume
- 19
- Number
- 10
- Start Page
- 6690
- End Page
- 6695
- URI
- https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/12433
- DOI
- 10.1166/jnn.2019.17097
- ISSN
- 1533-4880
- Abstract
- We present a flexible strain sensor based on a graphene-yarn composite obtained by spray coating of graphene nanoplates. To improve the stretchability, graphene nanoplates were spray-coated instead of dip-coated on pre-stretched yarn. The spray-coating method yielded not only 3.68 times higher conductivity but also 2.1 times higher stretchability compared to the dip-coating method. The sensor spray-coated 400 times showed a high stretchability of 310%. Here, the relative resistance change (Delta R/R-0) was 2.27 when a tensile strain of 50% was applied to the strain sensor. In addition, the fabricated sensor was coated with a protective layer of Ecoflex to minimize environmental effects. The passivated graphene-yarn composite sensor had a higher resistance than the unpassivated sensor because the Ecoflex film penetrated the conductive graphene nanoplates; however, the response to strains of up to 200% did not degrade after passivation. Furthermore, we demonstrated that our sensor can be used in wearable applications for monitoring individual finger movements and the wrist pulse.
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