Biomimetic macroporous hydrogel with a triple-network structure for full-thickness skin regeneration

“…[34][35][36][37][38] Flexible hydrogels exhibiting high ionic conductivity are one of the irreplaceable candidates for wearable sensing materials, as compared with conventional wearable sensing materials that are not tensile resistant. [39][40][41] Hydrogels refer to a type of polymer material with a threedimensional network structure, and exhibit similar properties to biological tissues, so that they have been extensively employed in intelligent wearable devices. [42][43][44][45] Conventional hydrogels are poorly flexible, prone to breakage, and not adapted to complex external stimulus responses.…”

“…34–38 Flexible hydrogels exhibiting high ionic conductivity are one of the irreplaceable candidates for wearable sensing materials, as compared with conventional wearable sensing materials that are not tensile resistant. 39–41…”

Bio-inspired color-changing and self-healing hybrid hydrogels for wearable sensors and adaptive camouflage

“…[34][35][36][37][38] Flexible hydrogels exhibiting high ionic conductivity are one of the irreplaceable candidates for wearable sensing materials, as compared with conventional wearable sensing materials that are not tensile resistant. [39][40][41] Hydrogels refer to a type of polymer material with a threedimensional network structure, and exhibit similar properties to biological tissues, so that they have been extensively employed in intelligent wearable devices. [42][43][44][45] Conventional hydrogels are poorly flexible, prone to breakage, and not adapted to complex external stimulus responses.…”

“…34–38 Flexible hydrogels exhibiting high ionic conductivity are one of the irreplaceable candidates for wearable sensing materials, as compared with conventional wearable sensing materials that are not tensile resistant. 39–41…”

Bio-inspired color-changing and self-healing hybrid hydrogels for wearable sensors and adaptive camouflage

“…89 In addition to bone tissue engineering, a bionic ordered structured hydrogel with a triple network structure could also be implanted under the skin for full skin repair. 242 This bionic ordered structured hydrogel therefore offers a new solution for the development of medical implants due to its excellent durability and similar properties to the extracellular matrix.…”

Bionic ordered structured hydrogels: structure types, design strategies, optimization mechanism of mechanical properties and applications

“…Recently, biomimetic macroporous bioadhesive with a triple‐network structure for full‐thickness skin regeneration has been reported. [ 45 ] In vitro, ex vivo and in vivo experiments demonstrated that this bioadhesive is injectable with rapid gelling, strong adjustable mechanical, and macroporous microstructure properties, which could efficiently sutureless wound closure and promote wound healing.…”

Designing Regenerative Bioadhesives for Tissue Repair and Regeneration