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Ultrahigh Energy Storage Capacitors Based on Freestanding Single‐Crystalline Antiferroelectric Membrane/PVDF Composites

Bohan Chen, Wenxuan Zhu, Tian Wang, Bin Peng, Yiwei Xu, Guohua Dong, Yunting Guo, Haixia Liu, Houbing Huang, Ming Liu

2023Advanced Functional Materials32 citationsDOIOpen Access PDF

Abstract

Abstract Inorganic/organic dielectric composites are very attractive for high energy density electrostatic capacitors. Usually, linear dielectric and ferroelectric materials are chosen as inorganic fillers to improve energy storage performance. Antiferroelectric (AFE) materials, especially single‐crystalline AFE oxides, have relatively high efficiency and higher density than linear dielectrics or ferroelectrics. However, adding single‐crystalline AFE oxides into polymers to construct composite with improved energy storage performance remains elusive. In this study, high‐quality freestanding single‐crystalline PbZrO 3 membranes are obtained by a water‐soluble sacrificial layer method. They exhibit classic AFE behavior and then 2D–2D type PbZrO 3 /PVDF composites with the different film thicknesses of PbZrO 3 (0.1‐0.4 µm) is constructed. Their dielectric properties and polarization response improve significantly as compared to pure PVDF and are optimized in the PbZrO 3 (0.3 µm)/PVDF composite. Consequently, a record‐high energy density of 43.3 J cm −3 is achieved at a large breakdown strength of 750 MV m −1 . Phase‐field simulation indicates that inserting PbZrO 3 membranes effectively reduces the breakdown path. Single‐crystalline AFE oxide membranes will be useful fillers for composite‐based high‐power capacitors.

Topics & Concepts

Materials scienceDielectricAntiferroelectricityComposite materialCapacitorFerroelectricityComposite numberEnergy storageMembraneOptoelectronicsElectrical engineeringVoltageGeneticsQuantum mechanicsPhysicsBiologyPower (physics)EngineeringDielectric materials and actuatorsFerroelectric and Piezoelectric MaterialsAdvanced Sensor and Energy Harvesting Materials