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Lead‐Free Piezoelectric Composite Based on a Metamaterial for Electromechanical Energy Conversion

Zehuan Wang, Jin Cheng, Yan Xie, Yunhan Wang, Zhonghui Yu, Shuai Li, Liuting Li, Shuxiang Dong, Hong Wang

2022Advanced Materials Technologies29 citationsDOI

Abstract

Abstract Additive manufacturing of arbitrary shapes and unique architecture provides remarkable flexibility and simplicity for the preparation of highly complex conformal electronics. This drives up demand for electronic materials with excellent process ability and functionality from one‐step molding of microminiature to large‐scale devices. Herein, a novel method is introduced for fabricating high‐performance barium titanate (BaTiO 3 )‐polydimethylsiloxane composites based on three‐dimensional (3D)‐printing‐ordered structure of a metamaterial skeleton. When subjected to external mechanical stress, the metamaterial structure facilitates effective stress transfer, resulting in a significantly improved voltage output. In comparison to traditional low‐dimensional ceramic polymer composites, metamaterial‐structured BaTiO 3 composites exhibit excellent electromechanical energy conversion properties, thereby enabling tactile imitation applications and mechanical energy harvesting. This study proposes a novel strategy for biological signal identification and implantable self‐powered electronic applications.

Topics & Concepts

Materials scienceMetamaterialBarium titanateEnergy harvestingPolydimethylsiloxanePiezoelectricityComposite numberElectronicsStretchable electronicsTransfer printingCeramicNanotechnologyOptoelectronicsComposite materialEnergy (signal processing)Electrical engineeringStatisticsMathematicsEngineeringAdvanced Sensor and Energy Harvesting MaterialsDielectric materials and actuatorsAdvanced Materials and Mechanics
Lead‐Free Piezoelectric Composite Based on a Metamaterial for Electromechanical Energy Conversion | Litcius