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Single/Multi-Network Conductive Hydrogels—A Review

N. Hasan, Md Murshed Bhuyan, Jae-Ho Jeong

2024Polymers29 citationsDOIOpen Access PDF

Abstract

Hydrogels made from conductive organic materials have gained significant interest in recent years due to their wide range of uses, such as electrical conductors, freezing resistors, biosensors, actuators, biomedical engineering materials, drug carrier, artificial organs, flexible electronics, battery solar cells, soft robotics, and self-healers. Nevertheless, the insufficient level of effectiveness in electroconductive hydrogels serves as a driving force for researchers to intensify their endeavors in this domain. This article provides a concise overview of the recent advancements in creating self-healing single- or multi-network (double or triple) conductive hydrogels (CHs) using a range of natural and synthetic polymers and monomers. We deliberated on the efficacy, benefits, and drawbacks of several conductive hydrogels. This paper emphasizes the use of natural polymers and innovative 3D printing CHs-based technology to create self-healing conductive gels for flexible electronics. In conclusion, advantages and disadvantages have been noted, and some potential opportunities for self-healing single- or multi-network hydrogels have been proposed.

Topics & Concepts

Self-healing hydrogelsMaterials scienceConductive polymerNanotechnologyElectrical conductorElectronicsSoft roboticsPolypyrroleFlexible electronicsComputer sciencePolymerActuatorElectrical engineeringEngineeringComposite materialArtificial intelligencePolymer chemistryPolymerizationAdvanced Sensor and Energy Harvesting MaterialsConducting polymers and applicationsHydrogels: synthesis, properties, applications
Single/Multi-Network Conductive Hydrogels—A Review | Litcius