March 3, 2026

Features of Pyroelectric and Dielectric Properties of Polyvinylidene Fluoride-Based Composites Obtained by Crystallization in a Corona Discharge Field

Key Points

The pyroelectric coefficient ranges from 0.01 × 10–4 to 0.2 × 10–4 C/(m2 K), indicating enhanced performance with specific fillers.
Dielectric properties of PVDF-based composites were consistent regardless of the manufacturing method, showing reliability in fabrication.
Films made by the standard method exhibited dielectric permittivity about 10–15% lower than composites oriented in a corona discharge field.
The findings support the potential for optimizing PVDF composites for better pyroelectric application uses, calling for further exploration.

Abstract

We fabricated polyvinylidene fluoride (PVDF) based composites comprised polar inclusions of deuterated triglycine sulfate (DTGS) oriented during the crystallization to enhance pyroelectric activity, as well as study their pyroelectric and dielectric properties. The calculated pyroelectric coefficient yields values ranging from 0.01 × 10–4 to 0.2 × 10–4 C/(m2 K), depending on the filler concentration. This value coincides with the pyroelectric coefficient for PVDF films manufactured by the standard method. The dispersion of dielectric properties of PVDF-based composite samples does not depend on the film manufacturing method noticeably. However, the dielectric permittivity of films obtained by the standard method is approximately 10–15% lower.

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Features of Pyroelectric and Dielectric Properties of Polyvinylidene Fluoride-Based Composites Obtained by Crystallization in a Corona Discharge Field

Key Points

Abstract

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