The surface modification of BaTiO<sub>3</sub> and its effects on the microstructure and electrical properties of BaTiO<sub>3</sub>/silicone rubber composites

Guan, Shanshan; Li, Hai; Zhao, Shugao; Guo, Laina

doi:10.1002/vnl.21590

Cited by 9 publications

(6 citation statements)

References 29 publications

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“…Obviously, the intrinsic dielectric properties of the ceramic fillers have a direct impact on the dielectric performance of the composite films [23]. In addition, the size, morphology and surface characteristic of the fillers can affect the interfacial adhesion and dispersibility of the fillers in the polymer matrixes [24]. Therefore, the size-control and surface modification of ceramic fillers is vital to improve the dielectric performance of ceramics composite films.…”

Section: Introductionmentioning

confidence: 99%

Effects of the Particle Size of BaTiO3 Fillers on Fabrication and Dielectric Properties of BaTiO3/Polymer/Al Films for Capacitor Energy-Storage Application

et al. 2019

Materials

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BaTiO3/polymer/Al (BPA) composite films for energy storage were fabricated by way of a roll coating and thermal curing process. The coating slurry consisted of silicon-containing heat-resistant resin (CYN-01) and BaTiO3 particles with various particle sizes obtained from commercial BaTiO3 powders processed at different durations of wet sand grinding in the presence of silane coupling agent (KH550), which not only improves the dielectric performance of the BPA films but also facilitates its production in a large scale. The major influence factors, such as the ratio between BaTiO3 and resin and the size of BaTiO3 particles, were investigated and their related mechanisms were discussed. The results show that modifying BaTiO3 particles (D90 = 0.83 μm) with the silane coupling agent of KH550 enhances the dielectric properties of the BPA films. The typical BPA films obtained exhibit a high dielectric constant of 32, a high break strength of 20.8 V/μm and a low dielectric loss of 0.014. The present work provides a simple and convenient way to prepare high-quality ceramic/polymer composite films for energy-storage application in a large scale.

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Section: Introductionmentioning

confidence: 99%

Effects of the Particle Size of BaTiO3 Fillers on Fabrication and Dielectric Properties of BaTiO3/Polymer/Al Films for Capacitor Energy-Storage Application

et al. 2019

Materials

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“…The poor dispersion results in filler aggregation, voids, and pores, which lead to a high-dielectric loss. 21 On the contrary, PI/BaTiO 3 at 10 2 Hz showed the lowest dielectric loss than other nanocomposites. Devaraju et al, 22 stated that the dielectric loss usually rises with the increase in the dielectric constant of the nanocomposites.…”

Section: Interface Power Law (Ipl) Modelmentioning

confidence: 94%

Changes in the dielectric constant of interphase volume in polyimide–ceramic nanocomposites: A power law model approach

Lay

Meng

Ismail

et al. 2021

J of Applied Polymer Sci

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The interphase properties in nanocomposites indicate the interaction between filler and matrix, which is dependent on the preparation method, shape, and size of filler and the chemical interaction between two phases. Local chemical environment in polymer matrix give rise to the different dielectric properties compared to that of bulk material. These properties allow the understanding of their effects on the dielectric properties and glass transition (T g ) of the nanocomposites. In this study, interphase power law model was used to predict the interphase properties based on the experimental dielectric constant of polyimide (PI) with BaTiO 3 , TiO 2 , and ZrO 2 nanocomposites. They were prepared via in situ polymerization of PI whose dielectric constant were increased at interphase filler volume fraction of BaTiO 3 , TiO 2 , and ZrO 2 at 3.8, 2.05, and 1.7, respectively. These results indicate that PI/ceramics nanocomposites had poor dispersion and weak interphase interaction between the filler and the matrix, as an evidence of scanning electron microscopy and Fourier transform infrared spectroscopy results. However, PI incorporated with high aspect ratio of BaTiO 3 nanofiber shows better dispersion than nanocomposites of TiO 2 and ZrO 2 filled PI; therefore provide higher dielectric constant and T g .

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“…In order to resolve this problem, surface modification of the BT was proposed. [68][69][70] In addition, various additives such as coupling agents [71,72] and other [75] Copyright 2017 Springer Nature.…”

Section: Fillers To Enhance the Dielectric Property Of Nbrmentioning

confidence: 99%

The role of chemical microstructures and compositions on the actuation performance of dielectric elastomers: A materials research perspective

et al. 2023

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Dielectric elastomer actuators (DEAs) are one of the emerging areas of investigation in smart elastomer research and have attracted considerable interests due to their wide‐ranging applications, for instance in automation and soft robotic components. Commonly utilized dielectric elastomers (DEs) such as nitrile butadiene rubber (NBR) and its hydrogenated and carboxylated derivatives along with the dielectric fillers (titanium oxide, barium titanate, etc.) were considered to be one of the most established composite systems demonstrating high actuation performance. When subjected to external electrical field, the DEAs derived from the composites were, therefore, capable of reproducing high energy density and large deformation with fast response time. The recent research emphasizes that tunable material properties eventually triggered the improved actuation performance. The exploration of compliant electrodes fabricated by the conventional and state‐of‐the‐art lithographic methods was also crucial to improve actuation performance for the soft robotic applications. This review summarizes the commonly used DEs and dielectric fillers, their performances and challenges, and outlines the research progress (experimental and theoretical) in the field of actuators. Finally, a brief introduction to DEA‐based soft robotics application is also presented.

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The surface modification of BaTiO₃ and its effects on the microstructure and electrical properties of BaTiO₃/silicone rubber composites

Cited by 9 publications

References 29 publications

Effects of the Particle Size of BaTiO3 Fillers on Fabrication and Dielectric Properties of BaTiO3/Polymer/Al Films for Capacitor Energy-Storage Application

Effects of the Particle Size of BaTiO3 Fillers on Fabrication and Dielectric Properties of BaTiO3/Polymer/Al Films for Capacitor Energy-Storage Application

Changes in the dielectric constant of interphase volume in polyimide–ceramic nanocomposites: A power law model approach

The role of chemical microstructures and compositions on the actuation performance of dielectric elastomers: A materials research perspective

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The surface modification of BaTiO3 and its effects on the microstructure and electrical properties of BaTiO3/silicone rubber composites

Cited by 9 publications

References 29 publications

Effects of the Particle Size of BaTiO3 Fillers on Fabrication and Dielectric Properties of BaTiO3/Polymer/Al Films for Capacitor Energy-Storage Application

Effects of the Particle Size of BaTiO3 Fillers on Fabrication and Dielectric Properties of BaTiO3/Polymer/Al Films for Capacitor Energy-Storage Application

Changes in the dielectric constant of interphase volume in polyimide–ceramic nanocomposites: A power law model approach

The role of chemical microstructures and compositions on the actuation performance of dielectric elastomers: A materials research perspective

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The surface modification of BaTiO₃ and its effects on the microstructure and electrical properties of BaTiO₃/silicone rubber composites