Multi-Functional Self-Healing Polyurethane Elastomer Based on Chair Conformation for Strain Sensors

IF 10.7 2区材料科学 Q1 CHEMISTRY, PHYSICAL

Journal of Materials Chemistry A Pub Date : 2024-10-10 DOI:10.1039/d4ta05598e

Yiyao Zhu, Yuting He, Wentong Lu, Hao Tian, Fan Fei, Peilong Zhou, Jincheng Wang

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引用次数: 0

Abstract

To address the diverse and complex application environments encountered today, the performance requirements for flexible sensing materials have become increasingly stringent. Traditional flexible sensing materials, which typically possess only excellent mechanical properties, can no longer meet these demands. We now seek materials that exhibit a range of additional features, including self-healing capabilities, biodegradabilityand good biocompatibility, to enhance the overall functionality and versatility of flexible sensors. This study successfully synthesized poly (carbonate-chair cyclohexane-urethane) (PCCU) with stable mechanical properties by incorporating a chair conformation structure and dynamic disulfide bonds into the polyurethane backbone. The resulting material demonstrated self-healing capability, antibacterial properties, recyclability, degradability, and biocompatibility. The chair conformation enhanced the material's fatigue resistance and promoted molecular chain mobility, thereby facilitating self-repairing properties. The synthesized polyurethane exhibited high tensile strength (15.09 MPa), high elongation at break (910%), a self-repairing efficiency of 92.75%, low dissipation efficiency (38.46%), 25% mass reduction after 8 weeks of degradation, and efficient antibacterial activity against Staphylococcus aureus and Escherichia coli (92.34% and 88.41%, respectively), with no cytotoxic effects observed. Finally, the polyurethane was encapsulated with conductive ink to validate its sensing capabilities through motion monitoring. This multifunctional polyurethane elastomer enhances the functionality of flexible electronic sensing materials and demonstrates potential applications across multiple domains.

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用于应变传感器的基于椅子构型的多功能自愈合聚氨酯弹性体

为了应对当今多样而复杂的应用环境，对柔性传感材料的性能要求变得越来越严格。传统的柔性传感材料通常仅具有出色的机械性能，但已无法满足这些要求。目前，我们正在寻求具有一系列附加特性的材料，包括自愈能力、生物降解性和良好的生物相容性，以增强柔性传感器的整体功能和多功能性。本研究通过在聚氨酯骨架中加入椅子构象结构和动态二硫键，成功合成了具有稳定机械性能的聚（碳酸酯-环己烷-聚氨酯）（PCCU）。这种材料具有自愈能力、抗菌性能、可回收性、可降解性和生物相容性。椅子构象增强了材料的抗疲劳性，提高了分子链的流动性，从而促进了自我修复性能。合成的聚氨酯拉伸强度高（15.09 兆帕），断裂伸长率高（910%），自我修复效率高达 92.75%，耗散效率低（38.46%），降解 8 周后质量减少 25%，对金黄色葡萄球菌和大肠杆菌具有高效抗菌活性（分别为 92.34% 和 88.41%），且未观察到细胞毒性效应。最后，聚氨酯被导电油墨包裹，通过运动监测验证了其传感能力。这种多功能聚氨酯弹性体增强了柔性电子传感材料的功能，并展示了在多个领域的潜在应用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Materials Chemistry A CHEMISTRY, PHYSICAL-ENERGY & FUELS

CiteScore

19.50

自引率

5.00%

发文量

1892

审稿时长

1.5 months

期刊介绍： The Journal of Materials Chemistry A, B & C covers a wide range of high-quality studies in the field of materials chemistry, with each section focusing on specific applications of the materials studied. Journal of Materials Chemistry A emphasizes applications in energy and sustainability, including topics such as artificial photosynthesis, batteries, and fuel cells. Journal of Materials Chemistry B focuses on applications in biology and medicine, while Journal of Materials Chemistry C covers applications in optical, magnetic, and electronic devices. Example topic areas within the scope of Journal of Materials Chemistry A include catalysis, green/sustainable materials, sensors, and water treatment, among others.