Litcius/Paper detail

Stackable and Deployable Laser‐Induced Graphene Layers Toward the Flexible Manufacturing of Smart 3D Honeycombs with Multifunctional Performance

Yan Gao, Yujie Cao, Yifan Luo, Guantao Wang, Wei Zhao, Xilun Ding, Sida Luo

2024Advanced Functional Materials27 citationsDOI

Abstract

Abstract Smart honeycombs are becoming the novel structural strategy for next‐generation devices and equipments. Unfortunately, traditional surface‐coating, structural immersing, and 3D printing approaches still face significant challenges in combining structural customization and performance multifunctionality. Herein, a brand‐new processing strategy is developed to construct graphene‐based smart honeycombs by stacking and deploying laser‐induced graphene (LIG) layers with alternatively inserted adhesives. Through tuning key parameters, various LIG‐enabled smart honeycombs (LIG‐HC) can be assembled with scalable areal dimension and thickness, variable cell sizes and shapes, as well as patternable graphene clusters. By further understanding the process‐dependent structural stability and electrical conductivity, multifunctional characteristics are systematically explored, including anisotropic mechanical, electrical, piezoresistive, and electromagnetic performance. To finally demonstrate the unique honeycomb multifunctionally applied in fields of aviation, an intelligent LIG‐HC enabled aircraft‐wing model is representatively constructed for performing anti‐/de‐icing, high‐temperature warning, flame retardancy, pressure and vibration monitoring, as well as electromagnetic shielding and stealth.

Topics & Concepts

Materials scienceGrapheneSmart materialHoneycombStackingElectromagnetic shieldingCoatingNanotechnologyComposite numberComposite materialNuclear magnetic resonancePhysicsAdvanced Materials and MechanicsCellular and Composite StructuresSupercapacitor Materials and Fabrication