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Anti-freezing, water-retaining, conductive, and strain-sensitive hemicellulose/polypyrrole composite hydrogels for flexible sensors

Wei Zhang, Jingyun Wen, Ming‐Guo Ma, Mingfei Li, Feng Peng, Jing Bian

2021Journal of Materials Research and Technology76 citationsDOIOpen Access PDF

Abstract

High-performance conductive hydrogels are desired for the development of flexible wearable sensors. However, it remains a challenge to simultaneously realize high stretchable, freezing tolerance, and attractive conductivity through a simple approach. In this work, we present stretchable, water retention, anti-freezing, and conductive hemicellulose/polypyrrole (H/PPY) composite hydrogels for application in epidermal strain sensors via freezing-thawing method. The composite hydrogels were obtained using hemicellulose as a hydrophilic carrier and polypyrrole as a conductive matrix. The freezing and thawing temperatures of the hydrogels decreased and the conductivity increased benefiting from the introduction of glycerol and NaCl. The hydrogels had good mechanical properties, remodeling ability and water retention after storage for 7 days. In addition, the strain sensors assembled by hydrogels accurately monitored the signals of human motions with good strain sensing durability. It is expected that the as-prepared hydrogels have the potential to be applied in the fields of wearable devices.

Topics & Concepts

Self-healing hydrogelsMaterials sciencePolypyrroleComposite numberComposite materialHemicelluloseElectrical conductorConductivityChemical engineeringPolymerPolymer chemistryCelluloseChemistryPolymerizationEngineeringPhysical chemistryAdvanced Sensor and Energy Harvesting MaterialsConducting polymers and applicationsElectrospun Nanofibers in Biomedical Applications