Elastomer‐Based Pressure and Strain Sensors

“…Recent developments of self-healing materials toward the field of organic electronics have been successfully demonstrated in numerous advanced applications such as smart wearables and stretchable devices. ,− In the last few decades, technology for fabricating organic electronics has been progressing rapidly due to the wide-range of substrates compatibility and excellent mechanical flexibility. ,− It shows potential to lower the costs of materials and their processing, while maintaining suitably sufficient performance. However, stability and durability of the materials remain challenges to be resolved before these organic electronic devices become common in the market.…”

Self-Healing Electronic Materials for a Smart and Sustainable Future

“…Recent developments of self-healing materials toward the field of organic electronics have been successfully demonstrated in numerous advanced applications such as smart wearables and stretchable devices. ,− In the last few decades, technology for fabricating organic electronics has been progressing rapidly due to the wide-range of substrates compatibility and excellent mechanical flexibility. ,− It shows potential to lower the costs of materials and their processing, while maintaining suitably sufficient performance. However, stability and durability of the materials remain challenges to be resolved before these organic electronic devices become common in the market.…”

Self-Healing Electronic Materials for a Smart and Sustainable Future

“…e-Skins should possess specific properties such as minimal latency, high sensitivity, and rapid response. They are usually made of soft and conformable materials with mechanical durability [98,99]. Recent advances in materials science, data processing, and ML have led to the design of novel e-skins.…”

Smart materials: rational design in biosystems via artificial intelligence

“…Carbon blacks, a 0-dimensional carbonaceous material, are made through incomplete combustion of hydrocarbon in a fixed gaseous atmosphere. Carbon blacks have long been used as conductive fillers in pressure sensitive rubbers (PSR) due to their low cost, safety, a high surface-area-to-volume ratio and good electrical conductivity (7). When used in wearable sensors, the primary sensing principle is the piezoresistive effect of CB/polymer composites.…”

Low-dimensional carbon based sensors and sensing network for wearable health and environmental monitoring