Journal
MATERIALS TODAY ENERGY
Volume 31, Issue -, Pages -Publisher
ELSEVIER SCI LTD
DOI: 10.1016/j.mtener.2022.101208
Keywords
PVDF composites; Fillers; Dispersion; Alignment; Energy storage
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PVDF-based composites play a crucial role in advanced dielectric energy storage due to their exceptional flexibility, high dielectric permittivity, low density, and superior dielectric breakdown strength. The energy storage performance can be significantly enhanced by optimizing the dispersion and alignment of fillers in the PVDF matrix. This review summarizes recent developments in PVDF-based composites for advanced dielectric capacitors, with a focus on the surface modification of fillers to improve their dispersion and the alignment of one-dimensional and two-dimensional fillers to strengthen the dielectric breakdown strength. The challenges and future prospects of PVDF-based composites for advanced dielectric capacitors are also discussed.
Polyvinylidene fluoride (PVDF)-based composites are of particular importance for advanced dielectric energy storage owing to their excellent flexibility, high dielectric permittivity, low density, superior dielectric breakdown strength, etc. Their energy storage performance, such as discharge energy density (Ue) and charge-discharge energy efficiency (h), can be significantly improved through the rational design of the composition, structure, and surface properties of ceramic fillers embedded in PVDF-based matrix. In the review, we summarize recent developments on PVDF-based composites for advanced dielectric capacitors with a special focus on the optimization of dispersion and alignment of fillers. Emphasis is placed on the strategies of surface modification of fillers to improve their dispersion in the composites. The alignment of one-dimensional and two-dimensional fillers, which can significantly reinforce the dielectric breakdown strength of the composites, is discussed in detail. Challenges and future developments of PVDF-based composites for advanced dielectric capacitors are also highlighted in the end.(c) 2022 Elsevier Ltd. All rights reserved.
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