Reduced polyaniline decorated reduced graphene oxide/polyimide nanocomposite films with enhanced dielectric properties and thermostability

“…To date, core-shell structured nanoparticles have been explored in depth for surface modification and multi-functional applications. [64][65][66][67] In polymer based nanocomposites, the ability to enhance dispersion of nanofillers and tailor the interfacial properties remain important technical challenges to be addressed [68][69][70] and the surface modification of fillers with a variety of organic modifiers is an effective approach to overcome these issues. 71,72 Organic modifiers can be physically adsorbed onto the filler surface through electrostatic interactions or by hydrogen bonding.…”

Interface design for high energy density polymer nanocomposites

“…To date, core-shell structured nanoparticles have been explored in depth for surface modification and multi-functional applications. [64][65][66][67] In polymer based nanocomposites, the ability to enhance dispersion of nanofillers and tailor the interfacial properties remain important technical challenges to be addressed [68][69][70] and the surface modification of fillers with a variety of organic modifiers is an effective approach to overcome these issues. 71,72 Organic modifiers can be physically adsorbed onto the filler surface through electrostatic interactions or by hydrogen bonding.…”

Interface design for high energy density polymer nanocomposites

“…This ultrahigh dielectric constant in rGO-based polymer composites has been seldom reported in the current literature. [37][38][39][40][41][42][43][44][45][46][47][48][49] Table 1 presents a comparison between the dielectric properties of different composites with graphene as the conductive ller and different polymers as the matrix reported in the literature in recent years; as can be seen from the table, the dielectric constants of most of the reported composites are less than 2000, a few of them are between 2000 and 10 000, and scarcely any of them are more than 10 000. A high dielectric constant generally corresponds to a high dielectric loss, and a low dielectric loss corresponds to a low dielectric constant.…”

A reduced graphene oxide–borate compound-loaded melamine sponge/silicone rubber composite with ultra-high dielectric constant

“…18 and 19)) into a polymer matrix to form composites. [20][21][22][23] This approach has been extensively studied for various polymer matrices including poly(vinylidene uoride) (PVDF), polymethylmethacrylate (PMMA), 24 polyimides 25 and epoxy resins. 26 The dielectric constant of ferroelectric/polymer composite system can be improved by a few times compared to the pure polymer when a high content of ferroelectric particles is incorporated (>50 vol%).…”

Significantly enhanced dielectric constant and energy storage properties in polyimide/reduced BaTiO₃composite films with excellent thermal stability