ACS Appl. Energy Mater.
 2022
DOI: 10.1021/acsaem.2c03293
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Energy Storage Capability of PVDF-Based Nanocomposites Significantly Enhanced by BaTiO3@BaxSr1–xTiO3 with Multi-Layer Gradient Core–Shell Structure Nanofillers

Zhihui Yi
1
,
Zhuo Wang
2
,
Dan Wu
3
et al.

Abstract: Electrostatic capacitors have high power density, but how to improve the energy storage density of electrostatic capacitors has always been the key to solving energy problems in the background of the energy crisis. Designing multi-layer core−shell inorganic nanofillers is an effective way to break the contradiction between high dielectric constant and high breakdown strength in nanocomposites to improve the energy storage performance. Herein, polyvinylidene fluoride (PVDF)-based nanocomposites are proposed, wh… Show more

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Cited by 5 publications
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References 52 publications
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Ultra strong flexible Ba0.7Sr0.3Zr0.02Ti0.98O3/MWCNT/PVDF Nanocomposites: Pioneering material with remarkable energy storage for Self-Powered devices

Mukherjee,
Dasgupta Ghosh,
Roy
et al. 2024
Chemical Engineering Journal
11
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Ultra strong flexible Ba0.7Sr0.3Zr0.02Ti0.98O3/MWCNT/PVDF Nanocomposites: Pioneering material with remarkable energy storage for Self-Powered devices

Mukherjee,
Dasgupta Ghosh,
Roy
et al. 2024
Chemical Engineering Journal
11
0
0
0
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Enhanced magnetoelectric and energy storage performance of strain-modified PVDF-Ba0.7Ca0.3TiO3-Co0.6Zn0.4Fe2O4 nanocomposites

Ramana,
Durairajan,
Kavitha
et al. 2024
Journal of Energy Storage
2
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Advancements and challenges in BaTiO3-Based materials for enhanced energy storage

Jain,
Kumar,
Gupta
et al. 2024
Materials Today: Proceedings
2
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