Prerak Badheka scite author profile

In today's world, technology for capacitors has grown significantly with its requirements in the direction of better dielectric properties. Developing an ideal composite material (polymer and ceramic) for satisfying the processing parameters is of great interest for capacitor industry. In this study, chemically treated barium titanate (BT) nanocrystals were prepared and used to make ceramicpolystyrene (PS) composites. A unique methodology was used in processing these materials. Effects of the chemically treated BT, filler loading, and frequency on the dielectric properties of these composites were examined, and compared with untreated BT-PS composites. Composite dielectric constant was proportional to the volume ratio of the BT filler and remained stable at different frequencies. The experimental data show that the dielectric constant of composites made with treated BT powders can attain values 2.5 times higher than that of untreated BT-PS composites. In addition, the composite shows consistency in dielectric constant values measured at different frequencies.

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Low-temperature paraelectric–ferroelectric phase transformation in hydrothermal BaTiO3 particles

Lai

Lee

Badheka

et al. 2005

Materials Letters

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Phase transition in barium titanate nanocrystals by chemical treatment

Badheka

Lai

Lee

2006

Journal of the European Ceramic Society

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The effect of precursor chemistry and preparation conditions on the formation of pore structure in metal-containing carbon fibers

Basova

Edie

Badheka

et al. 2005

Carbon

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Prerak Badheka

Short-range dissolution–precipitation crystallization of hydrothermal barium titanate

Effect of dehydroxylation of hydrothermal barium titanate on dielectric properties in polystyrene composite

Low-temperature paraelectric–ferroelectric phase transformation in hydrothermal BaTiO3 particles

Phase transition in barium titanate nanocrystals by chemical treatment

The effect of precursor chemistry and preparation conditions on the formation of pore structure in metal-containing carbon fibers

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