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Ultra‐Stretchable Monofilament Flexible Sensor with Low Hysteresis and Linearity based on MWCNTs/Ecoflex Composite Materials

Yanlin Zhang, Xubin Zhu, Yitao Liu, Li Liu, Qiang Xu, Hao Liu, Wei Wang, Li Chen

2021Macromolecular Materials and Engineering48 citationsDOI

Abstract

Abstract Wearable human–computer interaction equipment is a common technology, which can improve the comfort, convenience, and safety of the human body, and also can monitor human health. The flexible and wearable tensile sensor can be conveniently installed on clothes or directly connected to the body. This provides a convenient, timely, and portable solution for the detection of human motion. Therefore, wearable electronic equipment is gaining more attention. In this paper, a highly stretchable, flexible, and sensitive strain sensor which is based on multi‐walled carbon nanotubes/Ecoflex nanocomposites is reported. A monofilament tensile sensor obtains good linearity (10.77%), low hysteresis (1.63%), good stability (6000 cycles under 100% strain), and ultra‐high strain range ( ε = 1300%). This ultra‐stretchable sensor has potential applications in human motion monitoring, medical rehabilitation, health monitoring, human–computer interaction, and soft robots.

Topics & Concepts

Wearable computerMaterials scienceLinearityHuman motionTextileWearable technologyElastomerMechanical engineeringComputer scienceComposite materialElectrical engineeringEmbedded systemEngineeringArtificial intelligenceMotion (physics)Advanced Sensor and Energy Harvesting MaterialsTactile and Sensory InteractionsConducting polymers and applications
Ultra‐Stretchable Monofilament Flexible Sensor with Low Hysteresis and Linearity based on MWCNTs/Ecoflex Composite Materials | Litcius