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Toughening a Self‐Healable Supramolecular Polymer by Ionic Cluster‐Enhanced Iron‐Carboxylate Complexes

Yuanxin Deng, Qi Zhang, Ben L. Feringa, He Tian, Da‐Hui Qu

2020Angewandte Chemie80 citationsDOI

Abstract

Abstract Supramolecular polymers that can heal themselves automatically usually exhibit weakness in mechanical toughness and stretchability. Here we exploit a toughening strategy for a dynamic dry supramolecular network by introducing ionic cluster‐enhanced iron‐carboxylate complexes. The resulting dry supramolecular network simultaneous exhibits tough mechanical strength, high stretchability, self‐healing ability, and processability at room temperature. The excellent performance of these distinct supramolecular polymers is attributed to the hierarchical existence of four types of dynamic combinations in the high‐density dry network, including dynamic covalent disulfide bonds, noncovalent H‐bonds, iron‐carboxylate complexes and ionic clustering interactions. The extremely facile preparation method of this self‐healing polymer offers prospects for high‐performance low‐cost material among others for coatings and wearable devices.

Topics & Concepts

Supramolecular chemistrySupramolecular polymersIonic bondingCarboxylatePolymerMaterials scienceNon-covalent interactionsCovalent bondSelf-assemblyTougheningCluster (spacecraft)Polymer chemistryIonic strengthToughnessNanotechnologyChemical engineeringMoleculeChemistryHydrogen bondOrganic chemistryIonComposite materialComputer scienceProgramming languageEngineeringAqueous solutionPolymer composites and self-healingAdvanced Sensor and Energy Harvesting MaterialsCovalent Organic Framework Applications
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