可扩展的桦木在四氢呋喃中用锂和乙二胺还原。

Scalable Birch reduction with lithium and ethylenediamine in tetrahydrofuran.

机构信息

Department of Chemistry, University of Pittsburgh, Pittsburgh, PA 15260, USA.

出版信息

Science. 2021 Nov 5;374(6568):741-746. doi: 10.1126/science.abk3099. Epub 2021 Nov 4.

Abstract

The Birch reduction dearomatizes arenes into 1,4-cyclohexadienes. Despite substantial efforts devoted to avoiding ammonia and cryogenic conditions, the traditional, cumbersome, and dangerous procedure remains the standard. The Benkeser reduction with lithium in ethylenediamine converts arenes to a mixture of cyclohexenes and cyclohexanes; this is operationally easier than the Birch reduction but does not afford 1,4-cyclohexadienes. Here, we report a Birch reduction promoted by lithium and ethylenediamine (or analogs) in tetrahydrofuran at ambient temperature. Our method is easy to set up, inexpensive, scalable, rapid, accessible to any chemical laboratory, and capable of reducing both electron-rich and electron-deficient substrates. Our protocol is also compatible with organocuprate chemistry for further functionalization.

摘要

硼氢化还原使芳烃转化为 1,4-环己二烯。尽管人们已经做出了巨大的努力来避免使用氨和低温条件，但传统的、繁琐的和危险的程序仍然是标准程序。用在乙二胺中的锂进行本克塞尔还原将芳烃转化为环己烯和环己烷的混合物；这比硼氢化还原操作更容易，但不能得到 1,4-环己二烯。在这里，我们报告了一种在四氢呋喃中由锂和乙二胺（或类似物）促进的硼氢化还原反应，反应在环境温度下进行。我们的方法易于设置、成本低、可扩展、快速、适用于任何化学实验室，并能够还原富电子和缺电子的底物。我们的方案也与有机铜化学兼容，可进一步进行功能化。

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可扩展的桦木在四氢呋喃中用锂和乙二胺还原。

Scalable Birch reduction with lithium and ethylenediamine in tetrahydrofuran.

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