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Enhanced dielectric properties and energy storage of the sandwich‐structured poly(vinylidene fluoride‐co ‐hexafluoropropylene) composite films with functional BaTiO3 @Al2 O3 nanofibres
Enhanced dielectric properties and energy storage of the sandwich‐structured poly(vinylidene fluoride‐co ‐hexafluoropropylene) composite films with functional BaTiO3 @Al2 O3 nanofibres
by Qiu, Yan , Zha, Jun‐Wei , Yao, Shi‐Cong , Zheng, Ming‐Sheng , Dang, Zhi‐Min
in Al2 O3 / Aluminum oxide / Barium / barium compounds / barium titanate nanofibres / Barium titanates / BaTiO3 / BaTiO3 ‐Al2 O3 / breakdown strength / ceramic fillers / ceramic nanofibres / ceramics / Composite materials / Core-shell structure / core‐shell nanostructures / core–shell structured nanofibres / dielectric losses / Dielectric properties / Dielectric strength / electric breakdown / Electric fields / electrical technology / electronic technology / electrospinning / electrospinning method / energy density / Energy storage / Ethanol / filled polymers / Fluorides / high energy storage applications / Hot pressing / insulation layer / Interlayers / nanocomposites / nanofabrication / Nanofibers / nanofibres / Nanoparticles / permittivity / polymer fibres / polymer films / Polymers / Reagents / Sandwich structures / sandwich‐structured poly(vinylidene fluoride‐co‐hexafluoropropylene) composite films / three‐layer sandwich structure / Vinylidene / Vinylidene fluoride
2019
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Enhanced dielectric properties and energy storage of the sandwich‐structured poly(vinylidene fluoride‐co ‐hexafluoropropylene) composite films with functional BaTiO3 @Al2 O3 nanofibres
by Qiu, Yan , Zha, Jun‐Wei , Yao, Shi‐Cong , Zheng, Ming‐Sheng , Dang, Zhi‐Min
in Al2 O3 / Aluminum oxide / Barium / barium compounds / barium titanate nanofibres / Barium titanates / BaTiO3 / BaTiO3 ‐Al2 O3 / breakdown strength / ceramic fillers / ceramic nanofibres / ceramics / Composite materials / Core-shell structure / core‐shell nanostructures / core–shell structured nanofibres / dielectric losses / Dielectric properties / Dielectric strength / electric breakdown / Electric fields / electrical technology / electronic technology / electrospinning / electrospinning method / energy density / Energy storage / Ethanol / filled polymers / Fluorides / high energy storage applications / Hot pressing / insulation layer / Interlayers / nanocomposites / nanofabrication / Nanofibers / nanofibres / Nanoparticles / permittivity / polymer fibres / polymer films / Polymers / Reagents / Sandwich structures / sandwich‐structured poly(vinylidene fluoride‐co‐hexafluoropropylene) composite films / three‐layer sandwich structure / Vinylidene / Vinylidene fluoride
2019
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Enhanced dielectric properties and energy storage of the sandwich‐structured poly(vinylidene fluoride‐co ‐hexafluoropropylene) composite films with functional BaTiO3 @Al2 O3 nanofibres
Enhanced dielectric properties and energy storage of the sandwich‐structured poly(vinylidene fluoride‐co ‐hexafluoropropylene) composite films with functional BaTiO3 @Al2 O3 nanofibres
by Qiu, Yan , Zha, Jun‐Wei , Yao, Shi‐Cong , Zheng, Ming‐Sheng , Dang, Zhi‐Min
in Al2 O3 / Aluminum oxide / Barium / barium compounds / barium titanate nanofibres / Barium titanates / BaTiO3 / BaTiO3 ‐Al2 O3 / breakdown strength / ceramic fillers / ceramic nanofibres / ceramics / Composite materials / Core-shell structure / core‐shell nanostructures / core–shell structured nanofibres / dielectric losses / Dielectric properties / Dielectric strength / electric breakdown / Electric fields / electrical technology / electronic technology / electrospinning / electrospinning method / energy density / Energy storage / Ethanol / filled polymers / Fluorides / high energy storage applications / Hot pressing / insulation layer / Interlayers / nanocomposites / nanofabrication / Nanofibers / nanofibres / Nanoparticles / permittivity / polymer fibres / polymer films / Polymers / Reagents / Sandwich structures / sandwich‐structured poly(vinylidene fluoride‐co‐hexafluoropropylene) composite films / three‐layer sandwich structure / Vinylidene / Vinylidene fluoride
2019

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Enhanced dielectric properties and energy storage of the sandwich‐structured poly(vinylidene fluoride‐co ‐hexafluoropropylene) composite films with functional BaTiO3 @Al2 O3 nanofibres
Enhanced dielectric properties and energy storage of the sandwich‐structured poly(vinylidene fluoride‐co ‐hexafluoropropylene) composite films with functional BaTiO3 @Al2 O3 nanofibres
Journal Article

Enhanced dielectric properties and energy storage of the sandwich‐structured poly(vinylidene fluoride‐co ‐hexafluoropropylene) composite films with functional BaTiO3 @Al2 O3 nanofibres

Qiu, Yan,
Zha, Jun‐Wei,
Yao, Shi‐Cong,
Zheng, Ming‐Sheng,
Dang, Zhi‐Min
2019
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Overview
Polymer‐based composites with ceramic fillers could combine the advantages of both, which can be potentially used in electrical and electronic technology. In this work, the barium titanate (BaTiO3) nanofibres and the core–shell structured BaTiO3 @Al2 O3 nanofibres with Al2 O3 insulation layer coated on the BaTiO3 surface were both prepared via the electrospinning method. The appropriate incorporation of the ceramic nanofibres effectively improves the dielectric properties and energy density of the polymer. Moreover, the poly(vinylidene fluoride‐co ‐hexafluoropropylene)‐based composite films with the three‐layer sandwich structure were fabricated to further promote the dielectric properties. The results show that the outer two layers with a higher content of BaTiO3 nanofibres can make more contribution to the improved permittivity of the composites. In addition, the introduction of the interlayer with low loading of BaTiO3 @Al2 O3 nanofibres promotes the breakdown strength. This work gives rise to the potential in high energy storage applications.
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Publisher
The Institution of Engineering and Technology,John Wiley & Sons, Inc
Subject

Al2 O3

/ Aluminum oxide

/ Barium

/ barium compounds

/ barium titanate nanofibres

/ Barium titanates

/ BaTiO3

/ BaTiO3 ‐Al2 O3

/ breakdown strength

/ ceramic fillers

/ ceramic nanofibres

/ ceramics

/ Composite materials

/ Core-shell structure

/ core‐shell nanostructures

/ core–shell structured nanofibres

/ dielectric losses

/ Dielectric properties

/ Dielectric strength

/ electric breakdown

/ Electric fields

/ electrical technology

/ electronic technology

/ electrospinning

/ electrospinning method

/ energy density

/ Energy storage

/ Ethanol

/ filled polymers

/ Fluorides

/ high energy storage applications

/ Hot pressing

/ insulation layer

/ Interlayers

/ nanocomposites

/ nanofabrication

/ Nanofibers

/ nanofibres

/ Nanoparticles

/ permittivity

/ polymer fibres

/ polymer films

/ Polymers

/ Reagents

/ Sandwich structures

/ sandwich‐structured poly(vinylidene fluoride‐co‐hexafluoropropylene) composite films

/ three‐layer sandwich structure

/ Vinylidene

/ Vinylidene fluoride

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