Largely enhanced discharge energy density in linear polymer nanocomposites by designing a sandwich structure

journal article in Web of Science

English

The development of flexible film dielectric capacitors with high discharge energy densities is of central significance for advanced electric and electronic power systems. Herein, a novel sandwich structure designed barium titanate/poly(methyl methacrylate) (BT/PMMA) nanocomposites are prepared layer-by-layer using solution casting method. The outer two layers with low BT nanoparticles concentration offered a considerably higher breakdown strength, while the central polarization layer with higher BT nanoparticles concentration presented higher dielectric constant to the nanocomposites. Consequently, 1-9-1 BT/PMMA nanocomposite compared to its single-layered counterpart (i.e. 9 wt% BT/PMMA) showed a ∼238% improvement in discharge energy density (i.e. from 1.8 J/cm 3 to 6.08 J/cm 3 ). The discharge rate analysis presented that 1-9-1 BT/PMMA discharges in 2.44 μs with a power density of about 0.5 MW/cm 3 at a time constant (τ 0.9 ). This work significantly paves the way for using sandwich-structured linear polymer nanocomposites in high energy density and fast discharge rate dielectrics application.

Dielectric capacitors; Energy density; Energy storage; Flexible dielectric films; Polymer nanocomposites; Sandwich structure

Marwat, M.A.a, Xie, B., Zhu, Y., Fan, P., Ma, W., Liu, H., Ashtar, M., Xiao, J., Salamon, D., Samart, C., Zhang, H.

15. 3. 2019

1359-835X

COMPOSITES PART A-APPLIED SCIENCE AND MANUFACTURING

121

6

United Kingdom of Great Britain and Northern Ireland

115

122

8

https://pubs.rsc.org/en/Content/ArticleLanding/2018/TC/C8TC04447C#!divAbstract