环氧乙烷
聚乙烯
放松(心理学)
动力学(音乐)
乙烯
材料科学
高分子化学
氧化物
高分子科学
化学物理
化学
聚合物
物理
有机化学
共聚物
复合材料
医学
催化作用
内科学
声学
作者
P. Lunkenheimer,A. Loidl
出处
期刊:Macromolecules
[American Chemical Society]
日期:2025-03-19
卷期号:58 (7): 3547-3553
被引量:2
标识
DOI:10.1021/acs.macromol.5c00265
摘要
Poly(ethylene oxide) is an important polymer with many applications, e.g., as solid-state electrolyte in batteries. Its relaxation dynamics, characterizing its molecular and submolecular motions, which is relevant for many of these applications, was investigated numerous times, mostly employing dielectric spectroscopy. However, the various dynamic processes revealed by these studies were interpreted in conflicting ways and even their nomenclature in literature is highly inconsistent. Here we present the results of a detailed investigation of this polymer employing dielectric spectroscopy covering a relatively broad frequency and temperature range. We clearly detect four intrinsic relaxation processes. The slowest one most likely represents a so-called normal mode, reflecting global motions of the polymer chains, an interpretation that was not considered in previous works. The second process can be unequivocally identified with the segmental α relaxation, which governs glassy freezing and the glass transition. The third, only rarely detected process corresponds to the Johari–Goldstein relaxation of poly(ethylene oxide), widely overlooked in previous studies. The fourth and fastest process is unrelated to the supercooled and glassy state of this polymer and probably due to local, intramolecular motions.
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