Further applications of dielectric relaxation spectroscopy

Proceedings. 11th International Symposium on Electrets Pub Date : 2002-12-10 DOI:10.1109/ISE.2002.1042988

G. J. Pratt, M.J.A. Smith

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Abstract

Dielectric spectroscopy is an analytical technique notable for its wide-band capability and sensitivity. It relies on the presence of charge-asymmetric functional groups (dipoles) in the material under investigation. Significantly, the motion induced by an impressed field is not exclusive but depends on the nature of the coupling to neighbouring groups, generating in each dielectric spectrum considerable information concerning both dipolar and non-dipolar segments of polymeric or other molecules. Molecular mobility in polymers is influenced by the presence of low molecular weight additives, crosslinking, branching, inter- and intra-molecular interactions from hydrogen bonds and other sources, co-polymerization, blending, and degradation, and by dielectric inhomogeneities at the boundaries between macroscopic sub-structures. Consequently, dielectric spectroscopy is appropriate for the investigation of phase morphology and miscibility, and for the characterisation of changes induced by irradiation or the presence of additives. The utility of the spectroscopy is enhanced when used in conjunction with complementary analytical techniques.

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介电弛豫光谱的进一步应用

介电光谱是一种以其宽带性能和灵敏度而著称的分析技术。它依赖于所研究材料中电荷不对称官能团(偶极子)的存在。值得注意的是，由外加电场引起的运动不是排他性的，而是取决于与邻近基团耦合的性质，在每个介电谱中产生关于聚合物或其他分子的偶极和非偶极部分的大量信息。聚合物中的分子迁移率受到以下因素的影响:低分子量添加剂的存在、交联、分支、来自氢键和其他来源的分子间和分子内相互作用、共聚合、共混和降解，以及宏观子结构边界处介电不均匀性。因此，介电光谱适用于相形态和混相的研究，以及由辐照或添加剂引起的变化的表征。当与互补分析技术结合使用时，光谱学的效用得到增强。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings. 11th International Symposium on Electrets

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