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Cilia-Inspired Bionic Tactile E-Skin: Structure, Fabrication and Applications

Jing Yu, Muxi Ai, Cairong Liu, Hengchang Bi, Xing Wu, Wu Bin Ying, Zhe Yu

2024Sensors11 citationsDOIOpen Access PDF

Abstract

The rapid advancement of tactile electronic skin (E-skin) has highlighted the effectiveness of incorporating bionic, force-sensitive microstructures in order to enhance sensing performance. Among these, cilia-like microstructures with high aspect ratios, whose inspiration is mammalian hair and the lateral line system of fish, have attracted significant attention for their unique ability to enable E-skin to detect weak signals, even in extreme conditions. Herein, this review critically examines recent progress in the development of cilia-inspired bionic tactile E-skin, with a focus on columnar, conical and filiform microstructures, as well as their fabrication strategies, including template-based and template-free methods. The relationship between sensing performance and fabrication approaches is thoroughly analyzed, offering a framework for optimizing sensitivity and resilience. We also explore the applications of these systems across various fields, such as medical diagnostics, motion detection, human-machine interfaces, dexterous robotics, near-field communication, and perceptual decoupling systems. Finally, we provide insights into the pathways toward industrializing cilia-inspired bionic tactile E-skin, aiming to drive innovation and unlock the technology's potential for future applications.

Topics & Concepts

FabricationComputer scienceTactile sensorArtificial intelligenceNanotechnologyBiomimeticsHuman–computer interactionEngineeringMaterials scienceRobotPathologyMedicineAlternative medicineAdvanced Sensor and Energy Harvesting MaterialsTactile and Sensory InteractionsAdvanced Materials and Mechanics
Cilia-Inspired Bionic Tactile E-Skin: Structure, Fabrication and Applications | Litcius