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Crack engineering boosts the performance of flexible sensors

Yunlei Zhou, Haoxiang Lian, Zhenlei Li, Liting Yin, Qian Ji, Kan Li, Fei Qi, YongAn Huang

2022View75 citationsDOIOpen Access PDF

Abstract

Abstract With exceptional performance, flexible sensors have found broad applications, including human health monitoring, motion detection, human–machine interaction, smart wearable technology, and robot control. Crack‐sensitive structures based on animal bionics have also caught increasing attention because of their extraordinary sensitivity. Crack‐based flexible sensors, which combine the flexibility of the flexible sensors and the high sensitivity of the crack sensing structures, have seen rapid development in recent years. In this review, we summarize the sensing mechanisms of the flexible sensors based on the crack disconnection–reconnection process. The effects of crack type, depth, and density on sensor performance are explored in detail. We also discuss the performance characteristics and applications of the crack‐based flexible sensors with various materials, design structures, and crack generation procedures. Finally, the main challenges of the crack‐based flexible sensors are also reviewed, and several research directions are proposed.

Topics & Concepts

BionicsFlexibility (engineering)Wearable computerComputer scienceSensitivity (control systems)Process (computing)EngineeringElectronic engineeringArtificial intelligenceEmbedded systemStatisticsMathematicsOperating systemAdvanced Sensor and Energy Harvesting MaterialsTactile and Sensory InteractionsAdhesion, Friction, and Surface Interactions