Dielectric materials with higher energy storage and electromagnetic (EM) energy conversion
are in high demand to advance electronic devices, military stealth, and mitigate EM wave …

With the modern development of power electrification, polymer nanocomposite dielectrics
(or nanodielectrics) have attracted significant research attention. The idea is to combine the …

Flexible dielectric and electronic materials with high dielectric constant (k) and low loss are
constantly pursued. Encapsulation of conductive fillers with insulating shells represents a …

The extremely low room-temperature ionic conductivity of solid-state polymer electrolytes
(SPEs) ranging from 10− 7 to 10− 5 S cm− 1 seriously restricts their practical application in …

High‐energy‐density polymer dielectrics capable of high temperature operation are highly
demanded in advanced electronics and power systems. Here, the polyetherimide (PEI) …

Modern electronics and electrical systems demand efficient operation of dielectric polymer‐
based capacitors at high electric fields and elevated temperatures. Here, polyimide (PI) …

As advanced dielectric materials for the applications in electronics and electrical power
systems with the ever-increasing requirements, the polymer-based dielectric nano …

Polymer dielectrics are preferred materials for high-energy-density capacitive energy
storage. In particular, high-temperature dielectrics that can withstand harsh conditions, eg,≥ …

A hybrid nanoparticle, consisting of BaTiO3 nanoparticles tightly embedded in bronnitride
(BN) nanosheets, has been fabricated based on a daring supposition that BN may act as a …

The electrification of transport requires dielectric materials capable of operating efficiently at
high temperatures to meet the increasing demand of electrical energy storage at extreme …