Dielectric film with high energy density based on polypropylene/maleic anhydride-grafted polypropylene/boron nitride nanosheet ternary system

“…8b, compared with the recently reported studies concentrating on the PP-based composite dielectrics, the BaTiO 3 @CS/PP composite prepared in this study displays excellent energy storage capability at a very tiny fraction of filler incorporation. [19][20][21]24,[51][52][53][54][55][56][57] As demonstrated in Fig. S13 (ESI †), it is worth noting that compared with the reported counterparts, the BaTiO 3 @CS/PP composite shows excellent relative enhancements in both E b and U e .…”

Improved energy storage properties of polypropylene-based composite dielectrics by introducing surface-charged BaTiO₃@chitisan ultrafine constructions

“…8b, compared with the recently reported studies concentrating on the PP-based composite dielectrics, the BaTiO 3 @CS/PP composite prepared in this study displays excellent energy storage capability at a very tiny fraction of filler incorporation. [19][20][21]24,[51][52][53][54][55][56][57] As demonstrated in Fig. S13 (ESI †), it is worth noting that compared with the reported counterparts, the BaTiO 3 @CS/PP composite shows excellent relative enhancements in both E b and U e .…”

Improved energy storage properties of polypropylene-based composite dielectrics by introducing surface-charged BaTiO₃@chitisan ultrafine constructions

“…In recent years, dielectric materials with ultrafast charge–discharge time, high power density, and outstanding cycling stability have been widely applied in various electrical power systems. − To meet the demands of lightweight and miniaturization of modern electronic devices, how to achieve the higher energy density and efficiency of the dielectric materials remains crucial . In general, the energy density ( U e ) of dielectric materials between the two electrodes can be calculated using the following equation U e = ∫ E normald D where E and D represent the applied electric field and electric displacement, respectively .…”

Achieving Higher Dielectric and Energy Storage Performances of Methyl Methacrylate-co-glycidyl Methacrylate Films through the Nanocomposite Strategy

Polymer-based low dielectric constant and loss materials for high-speed communication network: Dielectric constants and challenges