Silylium-Ion-Initiated Twofold Halodealkylation of Fully Alkylated Silanes

Synthesis Pub Date : 2024-07-19 DOI:10.1055/a-2350-1323
Tobias Randt, Tao He, Hendrik F. T. Klare, Martin Oestreich
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Abstract

The synthesis of silanes starting from multifunctionalized precursors often suffers from low chemoselectivity due to the similar kinetic reaction profiles, leading to the formation of difficult to separate side products. The opposite approach, which is an access based on unreactive tetraalkylsilanes as starting materials, is far less developed. Making use of the silylium-ion-initiated chemoselective halodealkylation of tetraalkylsilanes recently developed by our laboratory, an extension of this protocol, namely the direct synthesis of dihalosilanes from tetraalkylsilanes, is reported. Following a sequence of halodehydrogenation and halodealkylation, trialkylhydrosilanes can also be converted into dihalosilanes. Commercially available 1,2-dihaloethane acts as the halogen source and is involved in the generation of the catalytically active arenium ion by an SEAr substitution of the benzene solvent. The formation of an uncommon halogen-substituted silylium ion as an intermediate is assumed, likely accounting for the need of an elevated reaction temperature.

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硅鎓离子引发的全烷基化硅烷的双倍卤代烷基化反应
以多功能前体为起始原料合成硅烷时,由于动力学反应曲线相似,化学选择性往往较低,从而形成难以分离的副产品。与此相反,以无反应的四烷基硅烷为起始原料的方法却远未得到充分发展。本报告利用本实验室最近开发的硅鎓离子引发的四烷基硅烷化学选择性卤代烃化反应,对这一方法进行了扩展,即从四烷基硅烷直接合成二卤代硅烷。经过一系列卤代氢化和卤代烷基化反应后,三烷基氢硅烷也可以转化为二卤代硅烷。市售的 1,2-二卤乙烷可作为卤素源,并通过苯溶剂的 SEAr 取代参与催化活性硒离子的生成。假定会形成一种不常见的卤素取代的硅鎓离子作为中间体,这可能是需要升高反应温度的原因。
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