Cable‐Driven Continuum Robot Perception Using Skin‐Like Hydrogel Sensors

Abstract: The cable-driven continuum robot (CDCR) is a highly significant soft robot that exhibits a lightweight structure, intrinsic safety properties, and a considerable degree of freedom; therefore, it can work well in confined and complex environments. However, commonly used fiber Bragg grating sensors in CDCR systems are ultra-stiff, extremely low in elongation, and lack an adhesion mechanism; this significantly restricts the movement of the robot and tends to delaminate from it, which makes it unsuitable for integ… Show more

“…Compared with hydrogels modified by traditional rigid nanofillers (such as carbon nanotubes, SiO 2 , and graphene), HPM-1 has a lower elastic modulus and higher stretchability. [40][41][42][43][44][45][46][47][48][49][50] This phenomenon is a result of the deformation behavior of microgels when applying external stress. Once the external stress was withdrawn, the microgels are capable of recovering to their original status.…”

Electron Conductive and Transparent Hydrogels for Recording Brain Neural Signals and Neuromodulation

“…Compared with hydrogels modified by traditional rigid nanofillers (such as carbon nanotubes, SiO 2 , and graphene), HPM-1 has a lower elastic modulus and higher stretchability. [40][41][42][43][44][45][46][47][48][49][50] This phenomenon is a result of the deformation behavior of microgels when applying external stress. Once the external stress was withdrawn, the microgels are capable of recovering to their original status.…”

Electron Conductive and Transparent Hydrogels for Recording Brain Neural Signals and Neuromodulation

“…Combining the advantages of conductive materials and hydrogels, conductive hydrogels (CHs) have broadened their applications in artificial skin, soft robotics, and wearable sensors, wherein excellent conductive performances and self-adhesion properties are vital for their applications. 1–20 Thus far, CHs have been prepared mainly by embedding conductive additives (electrolytes, conducting polymers, metals, and carbon nanomaterials) in polymeric matrixes. 21–53 Theoretical studies and extensive experiments have shown that such a design always results in isotropic conductive channels.…”

Anisotropic hydrogels with high-sensitivity and self-adhesion for wearable sensors

“…Our PEEEA ICE was synthesized without chemical cross-linkers, and thus the polymer chains can diffuse across the surface of the target substrate to generate intimate contact on a molecular scale. 43 This journal is © The Royal Society of Chemistry 2022…”

Flexible and adhesive liquid-free ionic conductive elastomers toward human–machine interaction