Electron-Beam Irradiation for Boosting Storage Energy Density of Tuned Poly(vinylidene fluoride-hexafluoropropylene)/Graphene Nanoplatelet Polymer Composites

Abstract: In current, the energy storage materials based on electrets and ferroelectric polymers are urgently demanded for electric power supply and renewable energy applications. The high energy storage density can be enhanced by conducting or inorganic fillers to ferroelectric polymer matrix. However, agglomeration, phase separation of fillers, interfacial phase regions and crystallinity of matrix remain the main factors for the improvement of energy storage density in those composites. Poly(vinylidene fluoride-hexafl… Show more

“…They achieved ∼13.6 J/cm 3 of energy density with 63 % efficiency at a breakdown field of 500 MV/m. Permana et al [166] . used electron beam irradiation on solvent‐casted P(VDF‐HFP)/Graphene Nanoplatelet composite films to boost the energy storage efficiency without reducing the energy storage density.…”

Strategies Involved in Enhancing the Capacitive Energy Storage Characteristics of Poly(vinylidene fluoride) Based Flexible Composites

“…They achieved ∼13.6 J/cm 3 of energy density with 63 % efficiency at a breakdown field of 500 MV/m. Permana et al [166] . used electron beam irradiation on solvent‐casted P(VDF‐HFP)/Graphene Nanoplatelet composite films to boost the energy storage efficiency without reducing the energy storage density.…”

Strategies Involved in Enhancing the Capacitive Energy Storage Characteristics of Poly(vinylidene fluoride) Based Flexible Composites

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