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Synfacts 2022; 18(11): 1222
DOI: 10.1055/s-0042-1753022
Metals in Synthesis

Copper-Catalyzed Conjugate Borylation of Enones

Rezensent(en):
Mark Lautens
,
Bijan Mirabi
Ito H, Yamanaka H, Tateiwa J, Hosomi A. * University of Tsukuba, Japan
Boration of an α,β-Enone using a Diboron Promoted by a Copper(I)–Phosphine Mixture Catalyst.

Tetrahedron Lett. 2000;
41: 6821-6825
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Key words

copper catalysis - borylation - conjugate addition - oxidation

Significance

The value of boron-containing compounds in organic synthesis has been appreciated for decades. In 2000, the Hosomi group disclosed the first copper-catalyzed borylation reaction utilizing a simple monodentate phosphine as the ligand and B2pin2 as the boron source. Michael acceptors, in particular enones, were used as the accepting π-system to afford the borylated products. This field has seen unceasing developments, particularly enantioselective variants, in the past two decades.


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Review

Hemming et al. Chem. Soc. Rev. 2018, 47, 7477–7494.


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Comment

Notably, linear and cyclic enones were tolerated, but tetrasubstituted olefins were unreactive in the transformation, an unmet challenge in the field. The authors reasoned that the role of the phosphine was to ligate the copper complex and not to activate the diboron reagent. Using excess phosphine led to inhibition of the reaction, and 31P NMR analysis of the phosphine with B2pin2 showed negligible change in the chemical shift compared to the free phosphine. Conversely, the 31P NMR signal of the phosphine and copper resulted in a downfield shift, suggesting coordination.


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Publikationsverlauf

Artikel online veröffentlicht:
18. Oktober 2022

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