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将耐水/碱的受阻路易斯对化学扩展至烷基胺可实现广泛的还原胺化反应。

Expanding Water/Base Tolerant Frustrated Lewis Pair Chemistry to Alkylamines Enables Broad Scope Reductive Aminations.

作者信息

Fasano Valerio, Ingleson Michael J

机构信息

School of Chemistry, University of Manchester, Manchester, M13 9PL, UK.

出版信息

Chemistry. 2017 Feb 10;23(9):2217-2224. doi: 10.1002/chem.201605466. Epub 2017 Jan 18.

DOI:10.1002/chem.201605466
PMID:27977048
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5396349/
Abstract

Lower Lewis acidity boranes demonstrate greater tolerance to combinations of water/strong Brønsted bases than B(C F ) , this enables Si-H bond activation by a frustrated Lewis pair (FLP) mechanism to proceed in the presence of H O/alkylamines. Specifically, BPh has improved water tolerance in the presence of alkylamines as the Brønsted acidic adduct H O-BPh does not undergo irreversible deprotonation with aliphatic amines in contrast to H O-B(C F ) . Therefore BPh is a catalyst for the reductive amination of aldehydes and ketones with alkylamines using silanes as reductants. A range of amines inaccessible using B(C F ) as catalyst, were accessible by reductive amination catalysed by BPh via an operationally simple methodology requiring no purification of BPh or reagents/solvent. BPh has a complementary reductive amination scope to B(C F ) with the former not an effective catalyst for the reductive amination of arylamines, while the latter is not an effective catalyst for the reductive amination of alkylamines. This disparity is due to the different pK values of the water-borane adducts and the greater susceptibility of BPh species towards protodeboronation. An understanding of the deactivation processes occurring using B(C F ) and BPh as reductive amination catalysts led to the identification of a third triarylborane, B(3,5-Cl C H ) , that has a broader substrate scope being able to catalyse the reductive amination of both aryl and alkyl amines with carbonyls.

摘要

与B(CF)相比,Lewis酸性较低的硼烷对水/强布朗斯特碱的组合表现出更高的耐受性,这使得受阻Lewis对(FLP)机制的Si-H键活化能够在H O/烷基胺存在下进行。具体而言,BPh在烷基胺存在下具有更好的耐水性,因为与H O-B(CF)不同,布朗斯特酸性加合物H O-BPh不会与脂肪族胺发生不可逆的去质子化反应。因此,BPh是使用硅烷作为还原剂,将醛和酮与烷基胺进行还原胺化反应的催化剂。一系列使用B(CF)作为催化剂无法实现的胺,通过BPh催化的还原胺化反应,采用一种操作简单的方法即可实现,该方法无需对BPh或试剂/溶剂进行纯化。BPh与B(CF)在还原胺化反应范围上具有互补性,前者对芳基胺的还原胺化不是有效催化剂,而后者对烷基胺的还原胺化不是有效催化剂。这种差异是由于水-硼烷加合物的不同pK值以及BPh物种对质子脱硼反应的更高敏感性。对使用B(CF)和BPh作为还原胺化催化剂时发生的失活过程的理解,导致鉴定出第三种三芳基硼烷B(3,5-Cl C H),其具有更广泛的底物范围,能够催化芳基胺和烷基胺与羰基的还原胺化反应。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6293/5396349/48f037561d2c/CHEM-23-2217-g009.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6293/5396349/28ba9e0c44e2/CHEM-23-2217-g008.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6293/5396349/48f037561d2c/CHEM-23-2217-g009.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6293/5396349/c7a92a0ed8e3/CHEM-23-2217-g007.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6293/5396349/28ba9e0c44e2/CHEM-23-2217-g008.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6293/5396349/48f037561d2c/CHEM-23-2217-g009.jpg

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