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Deterministic Self-Morphing of Soft-Stiff Hybridized Polymeric Films for Acoustic Metamaterials

Heng Deng, Xianchen Xu, Cheng Zhang, Jheng‐Wun Su, Guoliang Huang, Jian Lin

2020ACS Applied Materials & Interfaces31 citationsDOI

Abstract

-isopropylacrylamide) (PNIPAM) hydrogel to stiff and passive SU-8 patterns. Upon thermal stimulation, deformation of the tough PNIPAM hydrogel was locally constrained by the stiff SU-8 patterns, thereby causing laterally nonuniform strain to their interfaces for mechanically buckling the hybridized films to 3D structures. Combined with finite element analysis, we demonstrated that the stiff SU-8 patterns effectively alleviated the uncontrollability and uncertainty during the self-morphing process, which was caused by unexpected mutual deformation between the active and passive domains in the self-morphing materials. Therefore, deterministic self-buckling to dedicated 3D structures was physically realized such as a wave-shaped peak-valley structure, 3D checkerboard patterns, and Gaussian curved surfaces from the hybridized polymeric films. Finally, we demonstrated that the self-morphed 3D structures with predesigned patterns can be used as acoustic materials for subwavelength noise control. This transformative way of constructing 3D structures by self-morphing of the hybridized polymeric films will be a substantial progress in fabricating smart and multifunctional materials for widespread applications in metamaterials, soft robotics, and 3D electronics.

Topics & Concepts

MorphingMaterials scienceSoft roboticsMetamaterialStretchable electronicsFinite element methodBucklingDeformation (meteorology)Composite materialSmart materialNanotechnologyActuatorComputer scienceElectronicsStructural engineeringOptoelectronicsEngineeringComputer visionArtificial intelligencePhysical chemistryChemistryAdvanced Materials and MechanicsAdvanced Sensor and Energy Harvesting MaterialsDielectric materials and actuators
Deterministic Self-Morphing of Soft-Stiff Hybridized Polymeric Films for Acoustic Metamaterials | Litcius