Silicon-based dielectric elastomer with amino-complexed hybrids towards high actuation performance

Nano Materials Science Pub Date : 2023-12-30 DOI:10.1016/j.nanoms.2023.12.009

Zheng-xing Dai, Qing-qing Liu, Xiao-dong Qi, Nan Zhang, Ting Huang, Jing-hui Yang, Yong Wang

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Abstract

For improving the actuation performance at low electric fields of dielectric elastomers, achieving high dielectric constant (ɛ_r) and low modulus (Y) simultaneously has been targeted in the past decades, but there are few ways to accomplish both. In contrast to the classical strategies such as incorporating plasticizers or ceramic to prepare the silicon-based dielectric elastomers, here, blending an amino-complexed hybrid (polyethyleneimine (PEI)-Ag) with polydimethylsiloxane (PDMS) elastomer is reported as an alternative strategy to tailor the ɛ_r and Y. PEI-Ag not only exhibits excellent dielectric enhancement properties but also minimizes the PDMS crosslinking through amino-complexed reaction between PEI and Pt catalysts. The prepared dielectric elastomers have a ɛ_r of 7.2 @ 10³ Hz and Y of 1.14 MPa, leading to an actuation strain of 22.27 % at 35 V/μm. Hence, incorporating such novel hybrids based on dual amino-complexed effect on both matrix and particles sufficiently promotes the actuated performance of dielectric elastomers.

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硅基介电弹性体与氨基络合混合物的高致动性能

为了提高介电弹性体在低电场下的致动性能，过去几十年来，人们一直致力于同时实现高介电常数（ɛr）和低模量（Y），但同时实现这两个目标的方法却不多。与加入增塑剂或陶瓷等传统方法制备硅基介电弹性体不同，本文报道了将氨基络合混合物（聚乙烯亚胺（PEI）-Ag）与聚二甲基硅氧烷（PDMS）弹性体混合作为定制ɛr 和 Y 的替代方法。所制备的介电弹性体的ɛr 为 7.2 @ 103 Hz，Y 为 1.14 MPa，在 35 V/μm 时的致动应变为 22.27 %。因此，在基体和颗粒中加入这种基于双氨基络合效应的新型混合材料，可充分提高介电弹性体的致动性能。

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Nano Materials Science

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