Dual catalysis. Single-electron transmetalation in organoboron cross-coupling by photoredox/nickel dual catalysis - PubMed
- ️Wed Jan 01 2014
Dual catalysis. Single-electron transmetalation in organoboron cross-coupling by photoredox/nickel dual catalysis
John C Tellis et al. Science. 2014.
Abstract
The routine application of C(sp3)-hybridized nucleophiles in cross-coupling reactions remains an unsolved challenge in organic chemistry. The sluggish transmetalation rates observed for the preferred organoboron reagents in such transformations are a consequence of the two-electron mechanism underlying the standard catalytic approach. We describe a mechanistically distinct single-electron transfer-based strategy for the activation of organoboron reagents toward transmetalation that exhibits complementary reactivity patterns. Application of an iridium photoredox catalyst in tandem with a nickel catalyst effects the cross-coupling of potassium alkoxyalkyl- and benzyltrifluoroborates with an array of aryl bromides under exceptionally mild conditions (visible light, ambient temperature, no strong base). The transformation has been extended to the asymmetric and stereoconvergent cross-coupling of a secondary benzyltrifluoroborate.
Copyright © 2014, American Association for the Advancement of Science.
Figures
Ir = Ir[dFCF3ppy]2(bpy)PF6, R = generic organic subunit, Ar = aryl group.
All yields are percent isolated yield of pure material after chromatography. Reactions were performed on aryl halide (0.5 mmol). Boc = tert-butoxycarbonyl, Me = methyl, Ph = phenyl, Ac = acetyl.
Photoredox cross-coupling of a secondary (α-alkoxy)alkyltrifluoroborate with 4-bromobenzonitrile.
(A) Competition experiment between potassium benzyltrifluoroborate and potassium phenyltrifluoroborate under photoredox cross-coupling conditions. (B) Stereoconvergent cross-coupling of a racemic trifluoroborate 44 and aryl bromide to afford an enantioenriched product. Reactions were performed on aryl bromide (0.5 mmol). *Determined by chiral supercritical fluid chromatography (SFC). †Absolute configuration was assigned as (S) on the basis of data reported in the literature. er = enantiomeric ratio.
Comment in
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Catalysis. Self-control tames the coupling of reactive radicals.
Lloyd-Jones GC, Ball LT. Lloyd-Jones GC, et al. Science. 2014 Jul 25;345(6195):381-2. doi: 10.1126/science.1256755. Epub 2014 Jul 24. Science. 2014. PMID: 25061190 No abstract available.
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