Litcius/Paper detail

Enhanced Energy Storage Performance of PVDF-Based Composites Using BN@PDA Sheets and Titania Nanosheets

Congcong Zhu, Jinghua Yin, Yu Feng, Jialong Li, Yanpeng Li, He Zhao, Dong Yue, Xiaoxu Liu

2022Materials21 citationsDOIOpen Access PDF

Abstract

With the rapid development of modern electrical and electronic applications, the demand for high-performance film capacitors is becoming increasingly urgent. The energy density of a capacitor is dependent on permittivity and breakdown strength. However, the development of polymer-based composites with both high permittivity (εr) and breakdown strength (Eb) remains a huge challenge. In this work, a strategy of doping synergistic dual-fillers with complementary functionalities into polymer is demonstrated, by which high εr and Eb are obtained simultaneously. Small-sized titania nanosheets (STNSs) with high εr and high-insulating boron nitride sheets coated with polydopamine on the surface (BN@PDA) were introduced into poly(vinylidene fluoride) (PVDF) to prepare a ternary composite. Remarkably, a PVDF-based composite with 1 wt% BN@PDA and 0.5 wt% STNSs (1 wt% PVDF/BN@PDA−STNSs) shows an excellent energy storage performance, including a high εr of ~13.9 at 1 Hz, a superior Eb of ~440 kV/mm, and a high discharged energy density Ue of ~12.1 J/cm3. Moreover, the simulation results confirm that BN@PDA sheets improve breakdown strength and STNSs boost polarization, which is consistent with the experimental results. This contribution provides a new design paradigm for energy storage dielectrics.

Topics & Concepts

Materials scienceBoron nitrideComposite materialCapacitorDielectricPermittivityEnergy storageComposite numberTernary operationDopingPolymerVoltageOptoelectronicsElectrical engineeringQuantum mechanicsPower (physics)Programming languageComputer sciencePhysicsEngineeringDielectric materials and actuatorsAdvanced Sensor and Energy Harvesting MaterialsElectromagnetic wave absorption materials