Flexible Ultrahigh-Temperature Polymer-Based Dielectrics with High Permittivity for Film Capacitor Applications.

In this report, flexible cross-linked polyarylene ether nitrile/functionalized barium titanate(CPEN/F-BaTiO₃) dielectrics films with high permittivitywere prepared and characterized. The effects of both the F-BaTiO₃ and matrix curing on the mechanical, thermal and dielectric properties of the CPEN/F-BaTiO₃ dielectric films were investigated in detail. Compared to pristine BaTiO₃, the surface modified BaTiO₃ particles effectively improved their dispersibility and interfacial adhesion in the polymer matrix. Moreover, the introduction of F-BaTiO₃ particles enhanced dielectric properties of the composites, with a relatively high permittivity of 15.2 and a quite low loss tangent of 0.022 (1 kHz) when particle contents of 40 wt % were utilized. In addition, the cyano (-CN) groups of functional layer also can serve as potential sites for cross-linking with polyarylene ether nitrile terminated phthalonitrile (PEN-Ph) matrix and make it transform from thermoplastic to thermosetting. Comparing with the pure PEN-ph film, the latter results indicated that the formation of cross-linked network in the polymer-based system resulted in increased tensile strength by ~67%, improved glass transition temperature (T_g) by ~190 °C. More importantly, the CPEN/F-BaTiO₃ composite films filled with 30 wt % F-BaTiO₃ particles showed greater energy density by nearly 190% when compared to pure CPEN film. These findings enable broader applications of PEN-based composites in high-performance electronics and energy storage devices materials used at high temperature. [ABSTRACT FROM AUTHOR]