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Surface Wrinkling for Flexible and Stretchable Sensors

Giwon Lee, Mohammad Zarei, Qingshan Wei, Yong Zhu, Seung Goo Lee

2022Small154 citationsDOI

Abstract

Recent advances in nanolithography, miniaturization, and material science, along with developments in wearable electronics, are pushing the frontiers of sensor technology into the large-scale fabrication of highly sensitive, flexible, stretchable, and multimodal detection systems. Various strategies, including surface engineering, have been developed to control the electrical and mechanical characteristics of sensors. In particular, surface wrinkling provides an effective alternative for improving both the sensing performance and mechanical deformability of flexible and stretchable sensors by releasing interfacial stress, preventing electrical failure, and enlarging surface areas. In this study, recent developments in the fabrication strategies of wrinkling structures for sensor applications are discussed. The fundamental mechanics, geometry control strategies, and various fabricating methods for wrinkling patterns are summarized. Furthermore, the current state of wrinkling approaches and their impacts on the development of various types of sensors, including strain, pressure, temperature, chemical, photodetectors, and multimodal sensors, are reviewed. Finally, existing wrinkling approaches, designs, and sensing strategies are extrapolated into future applications.

Topics & Concepts

Materials scienceStretchable electronicsSurface (topology)NanotechnologyComposite materialEngineeringElectronicsGeometryElectrical engineeringMathematicsAdvanced Sensor and Energy Harvesting MaterialsAdvanced Materials and MechanicsTactile and Sensory Interactions
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