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Synthesis of silicone blocked bio-polyurethane and its application in highly stretchable fiber-shaped strain sensor

Zhanxu Liu, Chenchen Li, Xiaofeng Zhang, Hongxing Xu, Yanfen Zhou, Mingwei Tian, Shaojuan Chen, Stephen Jerrams, Fenglei Zhou, Liang Jiang

2023Nano Research19 citationsDOI

Abstract

Flexible strain sensors have become a key component of intelligent wearable electronics. However, the fabrication of strain sensors with wide workable strain ranges and high sensitivity remains a great challenge. Additionally, the rapid development of polymer composites based strain sensors has produced a large amount of e-waste. Therefore, the development of strain sensors with wide strain sensing ranges and high sensitivity based on degradable materials is necessary. In this work, a silicone blocked polyurethane (Si-BPU) with high stretchability and degradability was synthesized and composited with carbon nanotubes (CNTs) to fabricate fibrous strain sensors. The synthesized 0.5% Si-BPU exhibited good biodegradability with a weight loss of 16.47% in 42 days. The Si-BPU/12CNTs fiber based strain sensor achieved a sensing range of 0%–353.3% strain, gauge factor (GF) of 206.3 at 250% strain and of 4,513.2 at 353.3% strain, and reliable stability under 10,000 repeated stretching-releasing cycles. Moreover, the Si-BPU/12CNTs strain sensor showed rapid response time (< 163 ms) and was capable of monitoring various human body movements (elbow bending, finger bending, breath, and swallow). In consequence, this work provides a new and effective strategy for the development of sustainable wearable electronic devices.

Topics & Concepts

Materials scienceGauge factorStrain (injury)Strain gaugeComposite materialBendingSiliconePolyurethaneFabricationPolymerNanotechnologyInternal medicineMedicinePathologyAlternative medicineAdvanced Sensor and Energy Harvesting MaterialsConducting polymers and applicationsGas Sensing Nanomaterials and Sensors
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