Litcius/Paper detail

Skin-inspired antibacterial conductive hydrogels customized for wireless flexible sensor and collaborative wound healing

Shuang Wang, Siwei Bi, Linna Zhang, Ruiqi Liu, Haibo Wang, Jun Gu

2023Journal of Materials Chemistry A54 citationsDOI

Abstract

A highly stretchable, ultra-sensitive, self-adhesive, and antibacterial wearable sensor has been successfully fabricated by constructing core–shell structured silk-fibroin@AgNP nanoparticles and MXene nanosheets with promoting wound healing.

Topics & Concepts

FibroinWearable computerMaterials scienceNanotechnologySelf-healing hydrogelsAntibacterial activityAdhesiveWound dressingWound healingSILKComputer scienceComposite materialEmbedded systemPolymer chemistryMedicineLayer (electronics)GeneticsBiologyImmunologyBacteriaAdvanced Sensor and Energy Harvesting MaterialsPolydiacetylene-based materials and applicationsConducting polymers and applications
Skin-inspired antibacterial conductive hydrogels customized for wireless flexible sensor and collaborative wound healing | Litcius