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Journal of Materials Science

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12.02.2021 | Energy materials

Superior capacitive energy storage capability in polymer composites induced by polydopamine-coated paraelectric platelets

verfasst von: Jie Chen, Yifei Wang, Weixing Chen

Erschienen in: Journal of Materials Science | Ausgabe 15/2021

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Abstract

Dielectric nanocomposites with excellent energy storage capabilities have great potential applications in film energy storage capacitors. However, limited energy storage density (U_e) and poor efficiency (η) of nanocomposites based on the incorporation of the high dielectric constant (ε_r) fillers restrict their practical energy storage application due to low breakdown strengths (E_b) and electric displacement difference (D_max-D_rem) value. Herein, paraelectric SrTiO₃ (ST) plates have been successfully synthesized through three-step molten salt process and modified by polydopamine (PDA) nanolayer. The moderate dielectric constant ST has the advantage for increasing the breakdown strength of poly(vinylidene fluoride) (PVDF)-based composites owing to the mitigation of electric field distortion. The ST@PDA platelets bring the highest D_max-D_rem (8.65 μC/cm²) together with enhanced E_b (350 MV/m) to the composites on account of the strong microscopic barrier layers. Consequently, the composite film filled with optimized ST@PDA platelets content (2.5 vol%) endows the maximum U_e of 12.45 J cm⁻³ at 350 MV/m, which presents the best result when compared to the neat PVDF and dielectric nanocomposites added with diverse ST morphologies including nanoparticles, nanowires, and nanofibers reported previously. This work offers an efficiency strategy utilizing high insulating paraelectric fillers with a plate structure to maximize the improvement in capacitive energy storage performance for dielectric composites.

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Titel: Superior capacitive energy storage capability in polymer composites induced by polydopamine-coated paraelectric platelets
verfasst von: Jie Chen
Yifei Wang
Weixing Chen
Publikationsdatum: 12.02.2021
Verlag: Springer US
Erschienen in: Journal of Materials Science / Ausgabe 15/2021
Print ISSN: 0022-2461
Elektronische ISSN: 1573-4803
DOI: https://doi.org/10.1007/s10853-021-05883-5

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