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Biomimetic Multimodal Receptors for Comprehensive Artificial Human Somatosensory System

Cheng Chen, Jie‐Long Xu, Quan Wang, Xin‐Lin Li, Feng‐Qi Xu, Yu‐Cheng Gao, YinBo Zhu, HengAn Wu, Jianwei Liu

2024Advanced Materials31 citationsDOIOpen Access PDF

Abstract

Electronic skin (e-skin) capable of acquiring environmental and physiological information has attracted interest for healthcare, robotics, and human-machine interaction. However, traditional 2D e-skin only allows for in-plane force sensing, which limits access to comprehensive stimulus feedback due to the lack of out-of-plane signal detection caused by its 3D structure. Here, a dimension-switchable bioinspired receptor is reported to achieve multimodal perception by exploiting film kirigami. It offers the detection of in-plane (pressure and bending) and out-of-plane (force and airflow) signals by dynamically inducing the opening and reclosing of sensing unit. The receptor's hygroscopic and thermoelectric properties enable the sensing of humidity and temperature. Meanwhile, the thermoelectric receptor can differentiate mechanical stimuli from temperature by the voltage. The development enables a wide range of sensory capabilities of traditional e-skin and expands the applications in real life.

Topics & Concepts

Somatosensory systemMaterials scienceNeuroscienceReceptorNanotechnologySystems engineeringBiologyEngineeringBiochemistryAdvanced Sensor and Energy Harvesting MaterialsTactile and Sensory InteractionsNeuroscience and Neural Engineering