重金属五烯酸的合成与结构

Hugh Sanderson, Sumanta Banerjee, Mandeep Kaur, Alan Kennedy, Gabriele Kociok-Köhn, Ulrich Hintermair, Stuart Robertson
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引用次数: 0

摘要

通过单晶 X 射线衍射,确定了第一种铷和铯五烯酸盐 [Rb(THF)]2[Ph4Pn] 和 [Cs(THF)]2[Ph4Pn] 的固态结构。通过阳离子与苯基取代基的相互作用,发现这两种化合物在固态下都是聚合的,这与它们较轻的第 1 族同系物形成鲜明对比,后者对锂和钠来说是单质的,而对钾来说则是以 THF 为桥接的。[Rb(THF)]2[Ph4Pn]和[Cs(THF)]2[Ph4Pn]都显示出增加的η8配位,这表明正如以前对母体 M2[Pn] 复合物(M = 第 1 族金属)的计算预测一样,该基团向下移动的触变性更高。多价供体加合物 [M(DME)x]2[Ph4Pn](M = Li,x = 1;M = Na,x = 2)和 [M(Me6TREN)]2[Ph4Pn](M = K、Rb、Cs)的固态结构均为单体,与 THF 加合物相比,金属-碳距离增加,环滑移值降低。
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Synthesis and Structure of Heavy Alkali Metal Pentalenides
The solid‐state structures of the first rubidium and caesium pentalenides, [Rb(THF)]2[Ph4Pn] and [Cs(THF)]­­2[Ph4Pn] have been determined by single crystal X‐ray diffraction. Both were found to be polymeric in the solid state through interactions of the cations with the phenyl substituents, in contrast to their lighter group 1 congeners which are monomeric for lithium and sodium and THF‐bridged for potassium. Both [Rb(THF)]2[Ph4Pn] and [Cs(THF)]2[Ph4Pn] displayed increased η8 coordination, demonstrating a shift towards higher hapticities down the group as previously predicted computationally for the parent M2[Pn] complexes (M = group 1 metal). The solid‐state structures of the polydentate donor adducts [M(DME)x]2[Ph4Pn] (M = Li, x = 1; M = Na, x = 2) and [M(Me6TREN)]2[Ph4Pn] (M = K, Rb, Cs) were all monomeric and displayed increased metal‐carbon distances and decreased ring slippage values relative to the THF adducts.
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