Biocompatible Reduced Graphene Oxide Ink Hybridized by Wool Keratin for Flexible Strain Sensor Electronics
Liran Zhang,
Han Wu,
Yang Chen
et al.
Abstract:Ink based on nanoconductive materials can achieve the scalable fabrication of flexible devices. Nanocarbon materials, such as reduced graphene oxide (rGO), graphene oxide (GO), and carbon nanotubes (CNT), offer great potential in the field of flexible electronics. However, these materials are challenging to use in inks, especially environmentally friendly water−soluble inks, due to their poor dispersion in most solvents. In this study, a biocompatible and well-dispersed keratin-based rGO ink was fabricated con… Show more
“…Table S2 (ESI†) shows that the sensor performance is comparable to those of previously reported flexible fabric-based strain sensors. 40–54 The Gr/CB@TPU-Fabric strain sensor exhibited high sensitivity and a short response time.…”
A highly dispersed and conductive Gr/CB dispersion has been developed through a sand-milling. A Gr/CB composite ink with an interpenetrating conductive network structure has been prepared for wearable fabric-based heaters and strain sensors.
“…Table S2 (ESI†) shows that the sensor performance is comparable to those of previously reported flexible fabric-based strain sensors. 40–54 The Gr/CB@TPU-Fabric strain sensor exhibited high sensitivity and a short response time.…”
A highly dispersed and conductive Gr/CB dispersion has been developed through a sand-milling. A Gr/CB composite ink with an interpenetrating conductive network structure has been prepared for wearable fabric-based heaters and strain sensors.
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