Ultrahigh discharge efficiency and improved energy density in polymer-based nanocomposite for high-temperature capacitors application

Electrostatic capacitors with excellent energy storage capacity and great thermal stability have become the researching focus. However, high-energy-density electrostatic capacitors are restricted through insurmountable drawbacks of low charge-discharge efficiency under high temperature/voltage working conditions. Herein, polyetherimide (PEI) nanocomposite films contains with two-dimensional boron nitride nanosheets (h-BNNS) are fabricated by solution casting method. Consequently, h-BNNS/PEI nanocomposite films exhibit tremendously breakdown strength (E-b similar to 700 MV/m), accompany with a record discharge efficiency (eta similar to 93.6%) at room temperature with filler content of 4 vol%. The simulations and experiments results suggest that the h-BNNS loading into the PEI matrix could efficiently improve the high-temperature endurance. Particularly, the composites films exhibit superior comprehensive capacitive properties, e.g., discharged energy density of 3.43 J/cm(3) along with eta of 90.1% under 500 MV/m and 150 degrees C. Therefore, these characteristics render our polymer film an ideal material candidate for high-performance dielectric applications at evaluated temperature.