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Multifunctional Polyurethane Networks Combining Strength, Toughness, and Fast Autonomous Self-Healing via the Synergy of Multiple Dynamic Bonds

Mohamed Alaa Mohamed, Clayton Rumsey, Martin Trebbin, Stelios T. Andreadis

2023Chemistry of Materials61 citationsDOI

Abstract

Polymeric materials exhibiting concomitant toughness, strength, and autonomous self-healing at room temperature are attractive in many applications. However, the mechanical strength often compromises the self-healing capability, making development of such materials challenging. Here, we developed multifunctional supramolecular polyurethane (PU) based elastomers of high toughness and fast autonomous self-healing capacity at ambient conditions via the synergy of quadruple H-bonds and dynamic boronic ester bonds. The design involves the use of reversible quadruple H-bonding ureido-pyrimidinone (UPy) motifs and soft olefin side chains to endow the elastomer with toughness and chain flexibility to support self-healing. Further cross-linking of the photoreactive olefin groups via dynamic boronic ester bonds by thiol-ene chemistry provided strength while maintaining self-healing at ambient conditions. The resulting elastomers (PU-Ene x ) showed high toughness (42.8 MJ m –3 ), strength (11.1 MPa), notch insensitivity, and high fracture energy (23.6 kJ cm –2 ). Notably, PU-Ene x demonstrated fast self-healing at room temperature, recovering almost 90% of their original toughness within 6 h postinjury. Finally, they also exhibited remarkable adhesive strength (1.0 MPa), high optical transparency, and strong blue fluorescence upon UV irradiation. The work demonstrates the development of a novel, multifunctional PU with outstanding mechanical properties and enhanced self-healing at ambient conditions, enabling an exciting range of new applications.

Topics & Concepts

Self-healingToughnessMaterials scienceElastomerComposite materialPolyurethaneOlefin fiberPolymerMedicineAlternative medicinePathologyPolymer composites and self-healingPolydiacetylene-based materials and applicationsAdvanced Sensor and Energy Harvesting Materials
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