1. Separating Charge Centers of Chain Segments in Dielectric Elastomer through Steric Hindrance Engineering.
- Author
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Chen, Yifu, Wu, Siwu, Guo, Baochun, Jin, Binjie, Yang, Haixin, Chen, Jialiang, Wu, Wenjie, and Zhang, Liqun
- Abstract
Theoretically, separating the positive and negative charge centers of the chain segments of dielectric elastomers (DEs) is a viable alternative to the conventional decoration of chain backbone with polar handles, since it can dramatically increase the dipole vector and hence the dielectric constant (
ε ′) of the DEs while circumvent the undesired impact of the decorated polar handles on the dielectric loss (tanδ ). Herein, a novel and universal method is demonstrated to achieve effective separation of the charge centers of chain segments in homogeneous DEs by steric hindrance engineering, i.e., by incorporating a series of different included angle‐containing building blocks into the networks. Both experimental and simulation results have shown that the introduction of these building blocks can create a spatially fixed included angle between two adjacent chain segments, thus separating the charge center of the associated region. Accordingly, incorporating a minimal amount of these building blocks (≈5 mol%) can lead to a considerably sharp increase (≈50%) in theε ′ of the DEs while maintaining an extremely low tanδ (≈0.006@1 kHz), indicating that this methodology can substantially optimize the dielectric performance of DEs based on a completely different mechanism from the established methods. [ABSTRACT FROM AUTHOR]- Published
- 2024
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