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Liquid Metals and Disulfides: Interactive Metal‐Polymer Hybrids for Flexible and Self‐Healable Conductor

Yumeng Xin, Yang Lou, Huaizhi Liu, Dongfang Wu, Jiuyang Zhang

2021Advanced Materials Technologies37 citationsDOI

Abstract

Abstract Growing interests have been received in metal‐polymer hybrid composites for their combined features of metals and polymer. However, the detrimental incompatibility between inorganic and organic polymer matrix makes it challenging to prepare homogenous hybrid composites for advanced applications. This work reports using disulfides, as interactive binding bonds, to interact with liquid metals (LMs) for fabricating the liquid metal‐disulfide (LMDS) composites. The interaction between disulfides and liquid metals lead to uniform dispersion of LM droplets in polymer matrix and strengthen the whole polymer network for improved mechanical performance. Interestingly, this work discovers that the LM droplets could act as efficient initiator to promote the ring‐opening polymerization to obtain the composites. In addition, the interactive LMDS composites exhibit excellent self‐healing ability ascribing to the dynamic LM‐disulfide interaction and disulfide metathesis. The phenomenal electrical conductivity and self‐healing feature enable LMDS composites as stretchable self‐healing conductors with the ability to control the electrical circuits.

Topics & Concepts

Materials sciencePolymerComposite materialLocal Multipoint Distribution ServiceSelf-healingPolymerizationDispersion (optics)MetalLiquid metalDisulfide bondChemical engineeringComputer scienceChemistryMetallurgyTelecommunicationsPhysicsBiochemistryAlternative medicineMedicineWirelessOpticsEngineeringPathologyAdvanced Sensor and Energy Harvesting MaterialsAdvanced Materials and MechanicsDielectric materials and actuators
Liquid Metals and Disulfides: Interactive Metal‐Polymer Hybrids for Flexible and Self‐Healable Conductor | Litcius