半结晶超分子聚合物的介电特性

I. Preda, Diana Kay Hohl, C. Weder
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引用次数: 0

摘要

超分子聚合物(SPs)是通过非共价相互作用结合到另一个单体的组装。这些相互作用的可逆性质允许人们通过施加适当的刺激暂时“按指令”分解SPs,这有利于加工和回收,并允许创造刺激响应材料。在这里,我们报道了一种SP网络的介电性能,该网络由基于聚丙烯氧化物(PPO)芯的单体组装而成,并带有UPy基团。在这项工作中,我们测量了直流击穿强度,介电弛豫和电导率,并表明介电性能与有机硅或硅基粘合剂相似。然而,该材料是可再加工的,因此在循环经济的背景下具有中压应用的潜力。
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Dielectric Properties of a Semicrystalline Supramolecular Polymer
Supramolecular polymers (SPs) are assemblies of monomers that bind to another through non-covalent interactions. The reversible nature of these interactions permits one to temporarily disassemble SPs “on command” by applying an appropriate stimulus, which is advantageous for processing and recycling and allows creating stimuli-responsive materials. Here we report on the dielectric properties of an SP network assembled from monomers based on polypropylene oxide (PPO) cores, functionalized with UPy groups. In this work, we measured the DC breakdown strength, dielectric relaxation and electrical conductivity and show that the dielectric properties are similar to those of silicones or silicon-based adhesives. However, the material is reprocessable, thus has a potential for medium voltage applications, within the context of a circular economy.
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