Interfacial Effect on Dielectric Properties of Self‐Assembled Polythiourea‐Based Copolymers for Ultrahigh Energy Storage

Polymer dielectrics are highly desirable in capacitor applications due to their low cost, high stability, and reliability. However, there still remains a lack of feasible methods to prepare polymer dielectrics with high energy density and low dielectric loss, which severely hampers the development of compact and efficient power electronics. Here, an amphiphilic block copolymer, polythiourea‐b‐polydimethylsiloxane (PTU‐b‐PDMS), with an extraordinarily high energy density of 29.8 J cm−3 and a low loss is synthesized via polyaddition polymerization. This is highly relevant to the block molecule conformation in the interfacial region of the self‐assembled PTU‐b‐PDMS. The block molecule in the interface adopts an extended conformation when the PTU forms nanodots, whereas the block molecule adopts a coiled conformation when the PTU forms nanostrands. The observation and characterization have proved that the coiled block molecule in the interfacial region can simultaneously induce extra strong charge trapping sites and dipolar polarization. It substantially improves the breakdown strength from 652 to 1166 MV m−1, while maintaining a high dielectric constant of 5 and a low loss of