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Electromechanical Performance of Strain Sensors Based on Viscoelastic Conductive Composite Polymer Fibers

Ziling Zhang, Mugaanire Tendo Innocent, Ning Tang, Ruyu Li, Zexu Hu, Mian Zhai, Lijun Yang, Wujun Ma, Hengxue Xiang, Meifang Zhu

2022ACS Applied Materials & Interfaces59 citationsDOI

Abstract

Flexible conductive polymer composite (CPC) fibers that show large changes in resistance with deformation have recently gained much attention as strain-sensing components for future wearable electronics. However, the electrical resistance of these materials decays with time during dynamic cyclic loading, a deformation performed to simulate their real application as strain sensors. Despite the extensive research on CPC fibers, the mechanism leading to this decay in the electromechanical response under repetitive cycles remains unreported. Herein, this behavior is investigated using fiber-based strain sensors wet spun from thermoplastic polyurethane (TPU) consisting of a carbonaceous hybrid conductive filler system of carbon black (CB) and carbon nanotubes (CNTs). We found electrical viscosity to predict the observed electromechanical resistance decay. This implies that cycling these materials enables the relaxation of both the polymer chains and the conductive network. In addition, the resulting piezoresistive fibers are sensitive to deformation in the region of low strain (gauge factor of 6.0 within 3.0% strain), remain conductive under 280.5% deformation, and are stable for more than 2000 cycles. Finally, we demonstrate the potential of TPU/CB-CNT fibers as strain sensors for monitoring human motion.

Topics & Concepts

Materials scienceGauge factorComposite materialPiezoresistive effectViscoelasticityThermoplastic polyurethaneElectrical conductorComposite numberCarbon nanotubeElectrical resistance and conductanceCarbon blackDeformation (meteorology)PolyurethaneStrain gaugePolymerStrain (injury)ElastomerFabricationAlternative medicineMedicineNatural rubberInternal medicinePathologyAdvanced Sensor and Energy Harvesting MaterialsConducting polymers and applicationsSmart Materials for Construction