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<i>In-situ</i> forming ultra-mechanically sensitive materials for high-sensitivity stretchable fiber strain sensors

Rouhui Yu, Changxian Wang, Xiangheng Du, Xiaowen Bai, Yongzhong Tong, Huifang Chen, Xuemei Sun, Jinglei Yang, Naoji Matsuhisa, Huisheng Peng, Meifang Zhu, Shaowu Pan

2024National Science Review45 citationsDOIOpen Access PDF

Abstract

ABSTRACT Fiber electronics with flexible and weavable features can be easily integrated into textiles for wearable applications. However, due to small sizes and curved surfaces of fiber materials, it remains challenging to load robust active layers, thus hindering production of high-sensitivity fiber strain sensors. Herein, functional sensing materials are firmly anchored on the fiber surface in-situ through a hydrolytic condensation process. The anchoring sensing layer with robust interfacial adhesion is ultra-mechanically sensitive, which significantly improves the sensitivity of strain sensors due to the easy generation of microcracks during stretching. The resulting stretchable fiber sensors simultaneously possess an ultra-low strain detection limit of 0.05%, a high stretchability of 100%, and a high gauge factor of 433.6, giving 254-folds enhancement in sensitivity. Additionally, these fiber sensors are soft and lightweight, enabling them to be attached onto skin or woven into clothes for recording physiological signals, e.g. pulse wave velocity has been effectively obtained by them. As a demonstration, a fiber sensor-based wearable smart healthcare system is designed to monitor and transmit health status for timely intervention. This work presents an effective strategy for developing high-performance fiber strain sensors as well as other stretchable electronic devices.

Topics & Concepts

Materials scienceIn situStrain (injury)Composite materialFiberSensitivity (control systems)ChemistryEngineeringMedicineAnatomyElectronic engineeringOrganic chemistryAdvanced Sensor and Energy Harvesting MaterialsAdvanced Fiber Optic SensorsTactile and Sensory Interactions
<i>In-situ</i> forming ultra-mechanically sensitive materials for high-sensitivity stretchable fiber strain sensors | Litcius