Chain Length and Thermal Sensitivity of the Infrared Spectra of a Homologous Series of Anhydrous Silver(I) n-Alkanoates

P. Nelson
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引用次数: 13

Abstract

The thermal and chain length sensitivity of the infrared spectra of some solid state anhydrous silver(I) salts (n-octanoate to n-eicosanoate, inclusive) are discussed. At ambient temperature, the tilted alkyl chains, anchored to the metal planes via chelating bidentate coordination to the silver ions, are crystallized in the fully extended all-trans conformation. Interestingly, though all compounds are crystallized in a monoclinic crystal system, their lateral chain packing, van der Waals effects, and hence vibrational features are chain length-dependent. This is a direct result of electrostatic effects of the COO group in addition to vibrational coupling between CH2, CH3, and COO modes, an effect which varies significantly with chain length. Variable temperature infrared measurements indicate significant irreversible changes in the metal-carboxyl coordination sphere, most likely due to bond fission. For long chain adducts (), thermally induced crystal system switching, monoclinic to triclinic, indicates greater thermal sensitivity of their alkyl chains. During heating, the regions of the hydrocarbon chains, furthest from the COO, become increasingly molten and mobile as the stepwise melt advances towards the solid COO moieties. This solid-liquid melting behaviour is responsible for mesophase formation in metal carboxylate systems.
同源系列无水正烷酸银(I)的链长和红外光谱的热敏性
讨论了几种固态无水银盐(含正辛酸盐至正二十烷酸盐)红外光谱的热敏感性和链长敏感性。在室温下,倾斜的烷基链通过与银离子的螯合双齿配位固定在金属平面上,以完全扩展的全反式构象结晶。有趣的是,尽管所有化合物都是在单斜晶系中结晶,但它们的侧链填充、范德华效应以及因此产生的振动特征都与链长有关。这是COO基团静电效应以及CH2、CH3和COO模式之间的振动耦合的直接结果,这种效应随链长而显著变化。变温红外测量表明,在金属-羧基配位球显著不可逆的变化,最有可能是由于键裂变。对于长链加合物(),从单斜到三斜的热诱导晶体系统切换表明它们的烷基链具有更大的热敏性。在加热过程中,离COO最远的烃链区域,随着熔融逐步向固体COO部分推进,变得越来越熔融和流动。这种固液熔融行为是导致金属羧酸盐体系中中间相形成的原因。
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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