Cephalopod-Inspired Chromotropic Ionic Skin with Rapid Visual Sensing Capabilities to Multiple Stimuli
Yunpeng Wang, Xianfei Cao, Jie Cheng, Bowen Yao, Yusen Zhao, Suli Wu, Benzhi Ju, Shufen Zhang, Ximin He, Wenbin Niu
Abstract
an anisotropic electrostatic repulsion interior. Such a capability allows bionic skin to transduce temperature or infrared light into ionic signals and color changes in real time. The design of anisotropic photonic nanostructures expands the intelligent application for soft iontronics at higher levels, providing a concise, multifunctional, interactive sensing platform that dynamically displays stimuli information on its body.
Topics & Concepts
Materials sciencePhotonicsElectronic skinMechanotransductionAnisotropyNanotechnologyComputer scienceOptoelectronicsPhysicsOpticsNeuroscienceBiologyAdvanced Materials and MechanicsCephalopods and Marine BiologyAdvanced Sensor and Energy Harvesting Materials