Dimeric boroles: effective sources of monomeric boroles for heterocycle synthesis

Dimeric boroles: effective sources of monomeric boroles for heterocycle synthesis

Monomeric boroles have been gaining attention as reagents for the synthesis of heterocycles due to their ability to insert atoms into the BC 4 ring in a single step. Although unique boron frameworks can be accessed via this methodology, the products feature aryl substitution on the carbon centers as...

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Bibliographic Details
Published in:Chemical science (Cambridge) 2020, Vol.11 (1), p.126-131
Main Authors: Su, Xiaojun, Baker, J. J, Martin, Caleb D
Format: Article
Language:eng
Subjects:
Aromatic compounds
Boron
Chromium
Crystallography
Dimerization
Dimers
Insertion
Organic chemistry
Reagents
Substitutes
Substrates
Synthesis
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Summary:Monomeric boroles have been gaining attention as reagents for the synthesis of heterocycles due to their ability to insert atoms into the BC 4 ring in a single step. Although unique boron frameworks can be accessed via this methodology, the products feature aryl substitution on the carbon centers as steric bulk is required to preclude borole dimerization. This work demonstrates that insertion chemistry is possible with Diels-Alder dimeric boroles and that such reactivity is not exclusive to monomeric boroles with bulky groups. With 1-phenyl-2,3,4,5-tetramethylborole dimer, the formal 1,1-insertion of a nitrene and sulfur generate the six-membered aromatic 1,2-azaborine and 1,2-thiaborine, respectively. The isolation of the 1,2-thiaborine enabled the synthesis of an η 6 -chromium complex. Benzophenone and diphenylketene readily insert a CO unit to generate BOC 5 seven-membered rings confirming dimeric boroles can serve as monomeric synthons in 1,2-insertion reactions. An epoxide did not furnish the anticipated eight-membered BOC 6 ring, instead provided a bicyclic system with a BOC 3 ring. The insertion chemistry was demonstrated with two other borole dimers featuring different substitution with diphenylketene as a substrate. This work elevates borole insertion chemistry to a new level to access products that do not require bulky substitution. Dimeric boroles as thermal sources of monomers.
ISSN:2041-6520
2041-6539