Flexible cyclic-olefin with enhanced dipolar relaxation for harsh condition electrification

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Abstract

Flexible large bandgap dielectric materials exhibiting ultra-fast charging-discharging rates are key components for electrification under extremely high electric fields. A polyoxafluoronorbornene (m-POFNB) with fused five-membered rings separated by alkenes and flexible single bonds as the backbone, rather than conjugated aromatic structure typically for conventional high-temperature polymers, is designed to achieve simultaneously high thermal stability and large bandgap. In addition, an asymmetrically fluorinated aromatic pendant group extended from the fused bicyclic structure of the backbone imparts m-POFNB with enhanced dipolar relaxation and thus high dielectric constant without sacrificing the bandgap. m-POFNB thereby exhibits an unprecedentedly high discharged energy density of 7.44 J/cm3 and high efficiency at 150 °C. This work points to a strategy to break the paradox of mutually exclusive constraints between bandgap, dielectric constant, and thermal stability in the design of all-organic polymer dielectrics for harsh condition electrifications.

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Wu, C., Deshmukh, A. A., Yassin, O., Zhou, J., Alamri, A., Vellek, J., … Cao, Y. (2021). Flexible cyclic-olefin with enhanced dipolar relaxation for harsh condition electrification. Proceedings of the National Academy of Sciences of the United States of America, 118(45). https://doi.org/10.1073/pnas.2115367118

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