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Robust and dynamic underwater adhesives enabled by catechol-functionalized poly(disulfides) network

Chenyu Shi, Dan-Dan He, Qi Zhang, Fei Tong, Zhao‐Tao Shi, He Tian, Da‐Hui Qu

2022National Science Review130 citationsDOIOpen Access PDF

Abstract

Developing molecular approaches to the creation of robust and water-resistant adhesive materials promotes a fundamental understanding of interfacial adhesion mechanisms as well as future applications of biomedical adhesive materials. Here, we present a simple and robust strategy that combines natural thioctic acid and mussel-inspired iron-catechol complexes to enable ultra-strong adhesive materials that can be used underwater and simultaneously exhibit unprecedentedly high adhesion strength on diverse surfaces. Our experimental results show that the robust crosslinking interaction of the iron-catechol complexes, as well as high-density hydrogen bonding, are responsible for the ultra-high interfacial adhesion strength. The embedding effect of the hydrophobic solvent-free network of poly(disulfides) further enhances the water-resistance. The dynamic covalent poly(disulfides) network also makes the resulting materials reconfigurable, thus enabling reusability via repeated heating and cooling. This molecule-engineering strategy offers a general and versatile solution to the design and construction of dynamic supramolecular adhesive materials.

Topics & Concepts

AdhesiveCatecholMaterials scienceReusabilityCovalent bondAdhesionHydrogen bondSupramolecular chemistryNanotechnologyMoleculeChemical engineeringComposite materialComputer scienceChemistryOrganic chemistryLayer (electronics)Programming languageEngineeringSoftwareAdvanced Sensor and Energy Harvesting MaterialsPolymer Surface Interaction StudiesAdvanced Polymer Synthesis and Characterization
Robust and dynamic underwater adhesives enabled by catechol-functionalized poly(disulfides) network | Litcius