HIGHLIGHTS
SUMMARY
Conductive hydrogel has been ubiquitously used in a wide range of wearable devices, soft robots, tissue engineering, wearable electronics, artificial skin, health monitoring, smart medical therapy and supercapacitors. Although conventional hydrogels` mechanical and electrical properties are affected by the evaporation of water, they cannot sustain their mechanical and electrical conductivity properties over time, which severely restricts their practical applications. Currently, the introduction of organic solvents into hydrogel matrices is an effective method for preparing freeze- and dry-resistant organic conductive hydrogels. The exceptional conductivity of the resultant hydrogels can be achieved by assembling MXene . . .
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