1 research outputs found
Rationally Designed Polyimides for High-Energy Density Capacitor Applications
Development
of new dielectric materials is of great importance
for a wide range of applications for modern electronics and electrical
power systems. The state-of-the-art polymer dielectric is a biaxially
oriented polypropylene (BOPP) film having a maximal energy density
of 5 J<b>/</b>cm<sup>3</sup> and a high breakdown field of 700
MV/m, but with a limited dielectric constant (∼2.2) and a reduced
breakdown strength above 85 °C. Great effort has been put into
exploring other materials to fulfill the demand of continuous miniaturization
and improved functionality. In this work, a series of polyimides were
investigated as potential polymer materials for this application.
Polyimide with high dielectric constants of up to 7.8 that exhibits
low dissipation factors (<1%) and high energy density around 15
J<b>/</b>cm<sup>3</sup>, which is 3 times that of BOPP, was
prepared. Our syntheses were guided by high-throughput density functional
theory calculations for rational design in terms of a high dielectric
constant and band gap. Correlations of experimental and theoretical
results through judicious variations of polyimide structures allowed
for a clear demonstration of the relationship between chemical functionalities
and dielectric properties