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通过电喷雾质谱法直接检测铑(I)催化的炔烃[2+2+2]环加成反应中的关键中间体。

Direct detection of key intermediates in rhodium(I)-catalyzed [2+2+2] cycloadditions of alkynes by ESI-MS.

机构信息

Departament de Química, Universitat de Girona, Campus de Montilivi, s/n, 17071 Girona, Spain.

出版信息

Chemistry. 2012 Oct 8;18(41):13097-107. doi: 10.1002/chem.201200880. Epub 2012 Aug 30.

Abstract

The mechanism of the Rh-catalysed [2+2+2] cycloaddition reaction of diynes with monoynes has been examined using ESI-MS and ESI-CID-MS analysis. The catalytic system used consisted of the combination of a cationic rhodium(I) complex with bisphosphine ligands, which generates highly active complexes that can be detected by ESI(+) experiments. ESI-MS on-line monitoring has allowed the detection for the first time of all of the intermediates in the catalytic cycle, supporting the mechanistic proposal based mainly on theoretical calculations. For all ESI-MS experiments, the structural assignments of ions are supported by tandem mass spectrometry analyses. Computer model studies based on density functional theory (DFT) support the structural proposal made for the monoyne insertion intermediate. The collective studies provide new insight into the reactivity of cationic rhodacyclopentadienes, which should facilitate the design of related rhodium-catalysed C-C couplings.

摘要

已使用 ESI-MS 和 ESI-CID-MS 分析研究了炔烃与单炔烃的 Rh 催化 [2+2+2]环加成反应的机理。所使用的催化体系由阳离子铑(I)配合物与双膦配体组成,该体系生成了高活性的配合物,可通过 ESI(+)实验检测到。ESI-MS 在线监测首次允许检测到催化循环中的所有中间产物,从而支持了主要基于理论计算的机理假设。对于所有 ESI-MS 实验,离子的结构分配都得到了串联质谱分析的支持。基于密度泛函理论 (DFT) 的计算机模型研究支持了对单炔插入中间物的结构假设。综合研究为阳离子茂环戊二烯的反应性提供了新的认识,这应该有助于设计相关的铑催化 C-C 偶联。

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