2023
DOI: 10.1038/s41378-023-00571-7
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Bone-inspired (GNEC/HAPAAm) hydrogel with fatigue-resistance for use in underwater robots and highly piezoresistive sensors

Abstract: A novel bone-inspired fatigue-resistant hydrogel with excellent mechanical and piezoresistive properties was developed, and it exhibited great potential as a load and strain sensor for underwater robotics and daily monitoring. The hydrogel was created by using the high edge density and aspect ratio of graphene nanosheet-embedded carbon (GNEC) nanomaterials to form a three-dimensional conductive network and prevent the expansion of microcracks in the hydrogel system. Multiscale progressive enhancement of the or… Show more

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Cited by 8 publications
(1 citation statement)
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“…Furthermore, the piezoresistive effect typically refers to the phenomenon where the resistance of a semiconductor changes due to the variation in energy levels of the conduction band caused by stress-induced band structure changes [101][102][103][104]. However, in the context of hydrogel applications, the piezoresistive effect generally refers to changes in resistance resulting from variations in the dimensions of the gel under deformation [105][106][107][108]. Based on this characteristic, hydrogels can be used for stress or strain sensing.…”
Section: Triboelectric Piezoelectric and Piezoresistive Effectsmentioning
confidence: 99%
“…Furthermore, the piezoresistive effect typically refers to the phenomenon where the resistance of a semiconductor changes due to the variation in energy levels of the conduction band caused by stress-induced band structure changes [101][102][103][104]. However, in the context of hydrogel applications, the piezoresistive effect generally refers to changes in resistance resulting from variations in the dimensions of the gel under deformation [105][106][107][108]. Based on this characteristic, hydrogels can be used for stress or strain sensing.…”
Section: Triboelectric Piezoelectric and Piezoresistive Effectsmentioning
confidence: 99%