Complexes of the Gilman Reagent with Double Bonds across the π–σ Continuum

Bertz, Steven H.; Cope, Stephen K.; Hardin, Richard A.; Murphy, Michael; Ogle, Craig A.; Smith, David T.; Thomas, Andy A.; Whaley, Tara N.

doi:10.1021/om300622c

Cited by 14 publications

(18 citation statements)

References 80 publications

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“…Organocuprates form p-complexes with activated alkenes and alkynes, [1][2][3] which are well-characterized intermediates, thanks to mechanistic studies on the conjugate addition reactions of these useful reagents. 4,5 We were able to extend our preparations of cuprate p-complexes from C-C to C-N double bonds by using isothiocyanates and azachalcones. 4 In an attempt to extend our studies to C-N triple bond complexes, we investigated acyl cyanides and serendipitously discovered the title compounds.…”

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π-Complexes from acyl cyanides and lithium dimethylcuprate(i)

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π-Complexes from acyl cyanides and lithium dimethylcuprate(i)

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“…Presumably, they are less important for the addition to the corresponding nitriles because nitrogen has a lower Li + affinity than oxygen . However, adducts stable at room temperature are predicted to form only if at least two cyano groups are attached to the carbon–carbon double bond of the Michael acceptor, in line with previous NMR spectroscopic experiments …”

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confidence: 99%

Intermediates Formed in the Reactions of Organocuprates with α,β‐Unsaturated Nitriles

Putau

Brand

Koszinowski

2016

Chemistry A European J

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Conjugate additions of organocuprates are of outstanding importance for organic synthesis. To improve our mechanistic understanding of these reactions, we have used electrospray ionization mass spectrometry for the identification of the ionic intermediates formed upon the treatment of LiCuR2 ⋅LiCN (R=Me, Bu, Ph) with a series of α,β-unsaturated nitriles. Acrylonitrile, the weakest Michael acceptor included, did not afford any detectable intermediates. Fumaronitrile (FN) yielded adducts of the type Lin-1 Cun R2n (FN)n (-) , n=1-3. When subjected to fragmentation in the gas phase, these adducts were not converted into the conjugate addition products, but re-dissociated into the reactants. In contrast, the reaction with 1,1-dicyanoethylene furnished the products of the conjugate addition without any observable intermediates. Tri- and tetracyanoethylene proved to be quite reactive as well. The presence of several cyano groups in these substrates opened up reaction pathways different from simple conjugate additions, however, and led to dimerization and substitution reactions. Moreover, the gas-phase fragmentation behavior of the species formed from these substrates indicated the occurrence of single-electron transfer processes. Additional quantum-chemical calculations provided insight into the structures and stabilities of the observed intermediates and their consecutive reactions.

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“…[11] Preparation of NMR samples has been described. [10,16] For details of the molecular weight measurements, see the Supporting Information. Reference compounds (internal standards) [21] for these diffusion-ordered NMR studies are shown below: CCDC-928158 (1) contains the supplementary crystallographic data for this paper.…”

Section: Methodsmentioning

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“…ORTEP plot (50 % ellipsoids) for 1. Selected bond distances [] and angles [8]: CuÀC, 1.914(3); CuÀS, 2.1797 (7); LiÀS, 2.431(4); LiÀO1, 1.920 (5); LiÀO2, 1.914 (5); LiÀO3, 1.914(4); CÀCuÀS, 176.15 (12); CuÀSÀLi, 98.94 (10).…”

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First X‐Ray Crystal Structure and Internal Reference Diffusion‐Ordered NMR Spectroscopy Study of the Prototypical Posner Reagent, MeCu(SPh)Li(THF)₃

Bertz

Hardin

Heavey

et al. 2013

Chemistry A European J

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Grow slow: The usual direct treatment of MeLi and CuSPh did not yield X-ray quality crystals of MeCu(SPh)Li. An indirect method starting from Me2CuLi⋅LiSPh and chalcone afforded the desired crystals by the slow reaction of the intermediate π-complex (see scheme). This strategy produced the first X-ray crystal structure of a Posner cuprate. A complementary NMR study showed that the contact ion pair was also the main species in solution.

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Complexes of the Gilman Reagent with Double Bonds across the π–σ Continuum

Cited by 14 publications

References 80 publications

π-Complexes from acyl cyanides and lithium dimethylcuprate(i)

π-Complexes from acyl cyanides and lithium dimethylcuprate(i)

Intermediates Formed in the Reactions of Organocuprates with α,β‐Unsaturated Nitriles

First X‐Ray Crystal Structure and Internal Reference Diffusion‐Ordered NMR Spectroscopy Study of the Prototypical Posner Reagent, MeCu(SPh)Li(THF)₃

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Complexes of the Gilman Reagent with Double Bonds across the π–σ Continuum

Cited by 14 publications

References 80 publications

π-Complexes from acyl cyanides and lithium dimethylcuprate(i)

π-Complexes from acyl cyanides and lithium dimethylcuprate(i)

Intermediates Formed in the Reactions of Organocuprates with α,β‐Unsaturated Nitriles

First X‐Ray Crystal Structure and Internal Reference Diffusion‐Ordered NMR Spectroscopy Study of the Prototypical Posner Reagent, MeCu(SPh)Li(THF)3

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First X‐Ray Crystal Structure and Internal Reference Diffusion‐Ordered NMR Spectroscopy Study of the Prototypical Posner Reagent, MeCu(SPh)Li(THF)₃