Significantly enhanced energy storage performance in multi-layer polyimide films with nano dielectric layer

Abstract

Polymer-based composites with multilayer structure were emerging as an effective way to solve the contradiction between high breakdown strength and large permittivity in past decades. However, the incorporating layers in conventional multilayer composite films are usually inorganic thick films, which is not beneficial for the retention of excellent mechanical properties of the polymer matrix. In this work, the multilayer films consisting of micrometer polyimide (PI) and nanoscale TiO₂ layer were prepared by spin-coating and atomic layer deposition (ALD), respectively. Carrier migration in PI-TiO₂ multilayer films was hindered effectively by the interfacial barrier, as indicated by the results of the Pulsed Electro-Acoustic (PEA) tests. Compared to pure PI, both the permittivity, dielectric loss and breakdown strength were optimized in the PI-TiO₂ multilayer films. A satisfactory discharge energy density of 6.77 J cm⁻³ (efficiency >90 %) was obtained in the multilayer films, which is about 5 times higher than that of pure PI. The strategy of constructing heterogeneous interfaces by incorporated nanoscale TiO₂ layers is promising for designing high performance capacitors in practical application.