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Waterproof, Highly Tough, and Fast Self-Healing Polyurethane for Durable Electronic Skin

Wu Bin Ying, Zhe Yu, Do Hwan Kim, Kyung Jin Lee, Han Hu, Yiwei Liu, Zhengyang Kong, Kai Wang, Jie Shang, Ruoyu Zhang, Jin Zhu, Run‐Wei Li

2020ACS Applied Materials & Interfaces249 citationsDOI

Abstract

A stretchable electronic skin (e-skin) requires a durable elastomeric matrix to serve in various conditions. Therefore, excellent and balanced properties such as elasticity, water proof capability, toughness, and self-healing are demanded. However, it is very difficult and often contradictory to optimize them at one time. Here, a polyurethane (BS-PU-3) containing a polydisperse hard segment, hydrophobic soft segment, and a dynamic disulfide bond was prepared by one-pot synthesis. Unlike the normal two-pot reaction, BS-PU-3 obtained through the one-pot method owned a higher density of self-healing points along the main chain and a faster self-healing speed, which reached 1.11 μm/min in a cut-through sample and recovered more than 93% of virgin mechanical properties in 6 h at room temperature. Moreover, a remarkable toughness of 27.5 MJ/m3 assures its durability as an e-skin matrix. Even with a 1 mm notch (half of the total width) on a standard dumbbell specimen, it could still bear the tensile strain up to 324% without any crack propagation. With polybutadiene as the soft segment, the shape, microstructure, and conductivity in BS-PU-3 and BS-PU-3-based stretchable electronics kept very stable after soaking in water for 3 days, proving the super waterproof property. An e-skin demo was constructed, and self-healing in pressure sensitivity, mechanical, and electrical properties were verified.

Topics & Concepts

Materials scienceSelf-healingComposite materialToughnessElastomerPolybutadienePolyurethaneUltimate tensile strengthMicrostructureElasticity (physics)DurabilityThermoplastic polyurethaneElectronic skinStretchable electronicsPolymerElectronicsNanotechnologyCopolymerChemistryAlternative medicinePathologyMedicinePhysical chemistryAdvanced Sensor and Energy Harvesting MaterialsConducting polymers and applicationsElectrospun Nanofibers in Biomedical Applications
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