Durable and Wearable Self-powered Temperature Sensor Based on Self-healing Thermoelectric Fiber by Coaxial Wet Spinning Strategy for Fire Safety of Firefighting Clothing

IF 17.2 1区工程技术 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY Advanced Fiber Materials Pub Date : 2024-04-24 DOI:10.1007/s42765-024-00416-6

Qing Jiang, Yuhang Wan, Yi Qin, Xueru Qu, Mi Zhou, Siqi Huo, Xiaochun Wang, Zhicai Yu, Hualing He

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Abstract

Self-healable electronics with self-recoverable mechanical properties show a lot of potential in improving the reliability and durability of wearable electronic devices, but it is still challenging. Herein, a self-healing core-sheath thermoelectric (TE) fiber-based temperature sensor was continuously fabricated by coaxial wet-spinning strategy, whose core layer and sheath layer are, respectively, pure Ti₃C₂T_x MXene and self-healing silk sericin (SS)/oxide sodium alginate (OSA) composite. The prepared SS/OSA@MXene core-sheath TE fiber exhibits accurate temperature-sensing at 200–400 °C based on a linear relationship between TE voltage and temperature difference. The core-sheath TE fiber that can be integrated into firefighting clothing and timely alert firefighters to evacuate from the fire before the protective clothing becomes damaged. When exposed to flames, SS/OSA@MXene can rapidly trigger a high-temperature warning voltage of 3.36 mV within 1.17 s and exhibit reversible high-temperature alarm performance. In addition, the fractured SS/OSA@MXene can restore up to 89.12% of its original strain limit at room temperature because of the robust yet reversible dynamic covalent bonds between SS and OSA. In this study, an ingenious strategy for developing a durable and wearable TE fiber-based self-powered temperature sensor was proposed. This strategy has promising application prospects in real-time temperature detection of firefighting clothing to ensure the safety of firefighters operating on a fire scene.

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基于同轴湿法纺丝自愈热电纤维的耐用可穿戴自供电温度传感器，用于消防服的消防安全

具有自恢复机械特性的自愈合电子器件在提高可穿戴电子设备的可靠性和耐用性方面显示出巨大潜力，但仍具有挑战性。本文采用同轴湿法纺丝策略连续制备了一种基于自修复芯-鞘热电（TE）纤维的温度传感器，其芯层和鞘层分别为纯Ti3C2Tx MXene和自修复丝胶（SS）/氧化海藻酸钠（OSA）复合材料。根据 TE 电压与温差之间的线性关系，制备的 SS/OSA@MXene 芯-鞘 TE 光纤可在 200-400 °C 温度范围内实现精确的温度感应。这种芯-鞘 TE 纤维可以集成到消防服中，在防护服损坏之前及时提醒消防员撤离火场。当暴露在火焰中时，SS/OSA@MXene 可在 1.17 秒内迅速触发 3.36 mV 的高温警报电压，并表现出可逆的高温警报性能。此外，断裂的 SS/OSA@MXene 还能在室温下恢复到其原始应变极限的 89.12%，这是因为 SS 和 OSA 之间的动态共价键坚固而可逆。本研究提出了一种开发基于 TE 光纤的耐用、可穿戴自供电温度传感器的巧妙策略。该策略在消防服的实时温度检测方面具有广阔的应用前景，可确保消防员在火灾现场的作业安全。

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来源期刊

Advanced Fiber Materials Multiple-

CiteScore

18.70

自引率

11.20%

发文量

109

期刊介绍： Advanced Fiber Materials is a hybrid, peer-reviewed, international and interdisciplinary research journal which aims to publish the most important papers in fibers and fiber-related devices as well as their applications.Indexed by SCIE, EI, Scopus et al. Publishing on fiber or fiber-related materials, technology, engineering and application.