Spectral and Electron Paramagnetic Resonance Investigations of Copper(II) Complexes of Linear-Chain Fatty Diacids

Patrick Sharrock, Michele Dartiguenave, Yves Dartiguenave
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引用次数: 13

Abstract

Electron paramagnetic resonance spectra of polycrystalline copper complexes of butanedioic, pentanedioic, hexanedioic, heptanedioic, and decanedioic acids are presented, together with 77 K electronic spectra. The complexes are formulated as dimeric copper carboxylate units linked into infinite chains. Monomer impurities are also present and increase in quantity with the length of the diacid. The monomer and dimer signals occur at very different field strengths, but the g values calculated from the S = 12 spectra are similar to those calculated from the S = 1 spectra. The EPR method can thus be used to locate copper ions in possible biological frameworks and to study the geometry around the metal sites. The distortion from axial symmetry around the copper increases with the length of the diacid, as shown by the observed zero-field splitting parameters. Gaussian analysis of the optical absorptions yields information used with EPR data to calculate covalency and Fermi contact terms. Sodium, potassium, and lithium salts transform the dimeric polymers into monomeric polymers. The presence of magnetic exchange interactions in copper dicarboxylates is discussed and thereby shown to be of interest in the study of copper ions in molecules of biological importance containing carboxylate groups.

线性链脂肪酸铜(II)配合物的光谱和电子顺磁共振研究
给出了丁二酸、戊二酸、己二酸、庚二酸和癸二酸多晶铜配合物的电子顺磁共振波谱和77 K电子波谱。配合物被配制成二聚体羧酸铜单元连接成无限链。单体杂质也存在,并且随二酸长度的增加而增加。单体和二聚体信号发生在不同的场强下,但S = 12光谱计算的g值与S = 1光谱计算的g值相似。因此,EPR方法可用于定位可能的生物框架中的铜离子,并研究金属位点周围的几何结构。从观察到的零场分裂参数可以看出,铜周围的轴对称畸变随着二酸的长度而增加。光学吸收的高斯分析产生了与EPR数据一起用于计算共价和费米接触项的信息。钠、钾和锂盐将二聚体聚合物转化为单体聚合物。讨论了铜二羧酸盐中磁交换相互作用的存在,从而表明了铜离子在含有羧酸基团的生物重要性分子中的研究的兴趣。
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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