铝（I）催化的芳烃C-H活化：S Ar化学电子效应驱动的间位选择性

Arene C-H Activation at Aluminium(I): meta Selectivity Driven by the Electronics of S Ar Chemistry.

作者信息

Hicks Jamie, Vasko Petra, Heilmann Andreas, Goicoechea Jose M, Aldridge Simon

机构信息

Inorganic Chemistry Laboratory, Department of Chemistry, University of Oxford, South Parks Road, Oxford, OX1 3QR, UK.

Research School of Chemistry, Australian National University, Building 137, Sullivan's Creek Road, Acton, ACT, 2601, Australia.

出版信息

Angew Chem Int Ed Engl. 2020 Nov 9;59(46):20376-20380. doi: 10.1002/anie.202008557. Epub 2020 Sep 2.

DOI:10.1002/anie.202008557

PMID:32722863

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7693242/

Abstract

The reactivity of the electron-rich anionic Al aluminyl compound K [(NON)Al] (NON=4,5-bis(2,6-diisopropylanilido)-2,7-di-tert-butyl-9,9-dimethylxanthene) towards mono- and disubstituted arenes is reported. C-H activation chemistry with n-butylbenzene gives exclusively the product of activation at the arene meta position. Mechanistically, this transformation proceeds in a single step via a concerted Meisenheimer-type transition state. Selectivity is therefore based on similar electronic factors to classical S Ar chemistry, which implies the destabilisation of transition states featuring electron-donating groups in either ortho or para positions. In the cases of toluene and the three isomers of xylene, benzylic C-H activation is also possible, with the product(s) formed reflecting the feasibility (or otherwise) of competing arene C-H activation at a site which is neither ortho nor para to a methyl substituent.

摘要

据报道，富电子阴离子铝铝基化合物K[(NON)Al]（NON = 4,5-双(2,6-二异丙基苯胺基)-2,7-二叔丁基-9,9-二甲基氧杂蒽）与单取代和双取代芳烃的反应活性。正丁基苯的C-H活化化学仅产生芳烃间位活化产物。从机理上讲，这种转化通过协同的迈森海默型过渡态在一步中进行。因此，选择性基于与经典S Ar化学类似的电子因素，这意味着在邻位或对位具有供电子基团的过渡态不稳定。在甲苯和二甲苯的三种异构体的情况下，苄基C-H活化也是可能的，形成的产物反映了在既不是甲基取代基的邻位也不是对位的位点上竞争性芳烃C-H活化的可行性（或不可行性）。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e872/7693242/a45e9f1e95f3/ANIE-59-20376-g004.jpg

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铝（I）催化的芳烃C-H活化：S Ar化学电子效应驱动的间位选择性

Arene C-H Activation at Aluminium(I): meta Selectivity Driven by the Electronics of S Ar Chemistry.

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