卤化物复分解反应加速：异金属1族烯丙基配合物的机械化学合成

Halide metathesis in overdrive: mechanochemical synthesis of a heterometallic group 1 allyl complex.

作者信息

Koby Ross F, Rightmire Nicholas R, Schley Nathan D, Hanusa Timothy P, Brennessel William W

机构信息

Department of Chemistry, Vanderbilt University, PO Box 1822, Nashville, TN 37235, USA.

X-ray Crystallographic Facility, B51 Hutchison Hall, Department of Chemistry, University of Rochester, Rochester, NY 14627, USA.

出版信息

Beilstein J Org Chem. 2019 Aug 2;15:1856-1863. doi: 10.3762/bjoc.15.181. eCollection 2019.

DOI:10.3762/bjoc.15.181

PMID:31467607

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6693392/

Abstract

As a synthesis technique, halide metathesis ( RM + M'X → R M' + MX) normally relies for its effectiveness on the favorable formation of a metal halide byproduct (MX), often aided by solubility equilibria in solution. Owing to the lack of significant thermodynamic driving forces, intra-alkali metal exchange is one of the most challenging metathetical exchanges to attempt, especially when conducted without solvent. Nevertheless, grinding together the bulky potassium allyl [KA'] (A' = [1,3-(SiMe)CH]) and CsI produces the heterometallic complex [CsKA'] in low yield, which was crystallographically characterized as a coordination polymer that displays site disorder of the K and Cs ions. The entropic benefits of mixed Cs/K metal centers, but more importantly, the generation of multiple intermolecular KCH and CsCH interactions in [CsKA'], enable an otherwise unfavorable halide metathesis to proceed with mechanochemical assistance. From this result, we demonstrate that ball milling and unexpected solid-state effects can permit seemingly unfavored reactions to occur.

摘要

作为一种合成技术，卤化物复分解反应（RM + M'X → R M' + MX）的有效性通常取决于有利地形成金属卤化物副产物（MX），这通常借助溶液中的溶解度平衡来实现。由于缺乏显著的热力学驱动力，碱金属内部的交换是最难尝试的复分解交换反应之一，尤其是在无溶剂条件下进行时。尽管如此，将体积较大的烯丙基钾[KA']（A' = [1,3-(SiMe)CH]）与CsI一起研磨，会以低产率生成异金属配合物[CsKA']，其晶体结构表征为一种配位聚合物，显示出K和Cs离子的位点无序。Cs/K混合金属中心的熵增益处，但更重要的是，[CsKA']中多个分子间KCH和CsCH相互作用的产生，使得原本不利的卤化物复分解反应在机械化学辅助下得以进行。从这个结果来看，我们证明了球磨和意外的固态效应可以使看似不利的反应发生。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d1f5/6693392/be875ded6e4c/Beilstein_J_Org_Chem-15-1856-g002.jpg

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卤化物复分解反应加速：异金属1族烯丙基配合物的机械化学合成

Halide metathesis in overdrive: mechanochemical synthesis of a heterometallic group 1 allyl complex.

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