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Ultra‐Robust and Extensible Fibrous Mechanical Sensors for Wearable Smart Healthcare

Jiuwei Gao, Yubo Fan, Qingtian Zhang, Lei Luo, Xiaoqi Hu, Yue Li, Juncai Song, Hanjun Jiang, Xiaoyu Gao, Lu Zheng, Wu Zhao, Zhenhua Wang, Wei Ai, Yuan Wei, Qianbo Lu, Manzhang Xu, Yongtian Wang, Weitao Song, Xuewen Wang, Wei Huang

2022Advanced Materials229 citationsDOI

Abstract

Fibrous material with high strength and large stretchability is an essential component of high-performance wearable electronic devices. Wearable electronic systems require a material that is strong to ensure durability and stability, and a wide range of strain to expand their applications. However, it is still challenging to manufacture fibrous materials with simultaneously high mechanical strength and the tensile property. Herein, the ultra-robust (≈17.6 MPa) and extensible (≈700%) conducting microfibers are developed and demonstrated their applications in fabricating fibrous mechanical sensors. The mechanical sensor shows high sensitivity in detecting strains that have high strain resolution and a large detection range (from 0.0075% to 400%) simultaneously. Moreover, low frequency vibrations between 0 and 40 Hz are also detected, which covers most tremors that occur in the human body. As a further step, a wearable and smart health-monitoring system has been developed using the fibrous mechanical sensor, which is capable of monitoring health-related physiological signals, including muscle movement, body tremor, wrist pulse, respiration, gesture, and six body postures to predict and diagnose diseases, which will promote the wearable telemedicine technology.

Topics & Concepts

Wearable computerMaterials scienceWearable technologyExtensibilityBiomedical engineeringComputer scienceEmbedded systemMedicineOperating systemAdvanced Sensor and Energy Harvesting MaterialsConducting polymers and applicationsMuscle activation and electromyography studies
Ultra‐Robust and Extensible Fibrous Mechanical Sensors for Wearable Smart Healthcare | Litcius