聚合物电解质中的阳离子-氧几何结构:EXAFS结果的解释

Faraday Discussions of The Chemical Society Pub Date : 1989-01-01 DOI:10.1039/DC9898800103

R. Latham, R. Linford, W. Schlindwein

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引用次数: 24

摘要

在离子导电聚合物(聚合物电解质)领域，目前有两个问题引起了人们的兴趣:离子配对和水对聚合物-阳离子相互作用的可能干扰。选择EXAFS作为探测阳离子周围局部结构的合适技术。所研究的体系是PEOn:ZnX2，其中n= 6-15, X = Cl, Br或i。选择它们是为了确定当所研究的体系含有重反离子时，与氧邻居有关的信息的可靠性。结果显示，正如预期的那样，关于最近邻居氧的数量的信息是定性的而不是定量的，并且可以从较轻的反离子中得出更可靠的结论。阳离子和阴离子接近，从而证实了peo -锌聚合物电解质中的离子配对;这与最近对锌扩散的观察一致。

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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Cation-oxygen geometry in polymer electrolytes: interpretation of EXAFS results

Two issues are of current interest in the field of ionically conducting polymers (polymer electrolytes): these are ion pairing and possible interference of the polymer-cation interaction by water. EXAFS was chosen as a suitable technique to probe local structure surrounding the cations. The systems studied were PEOn:ZnX2, where n= 6–15 and X = Cl, Br or I. They were chosen in order to ascertain the reliability of information pertaining to oxygen neighbours when the system under investigation contains heavy counterions. The results reveal, as expected, that the information about numbers of oxygen nearest neighbours is qualitative rather than quantitative, and firmer conclusions can be drawn for the lighter counterions. Cations and anions were found to be in close proximity, thus confirming ion pairing in PEO-zinc polymer electrolytes; this is in accord with recent observations of zinc diffusion.

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