Single-Electron Oxidation of Monomeric Copper(I) Alkyl Complexes:  Evidence for Reductive Elimination through Bimolecular Formation of Alkanes

Goj, Laurel A.; Blue, Elizabeth D.; Delp, Samuel A.; Gunnoe, T. Brent; Cundari, Thomas R.; Petersen, Jeffrey L.

doi:10.1021/om060409i

Cited by 45 publications

(39 citation statements)

References 67 publications

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“…In our calculations we have found a strong ligand effect on the energies of ligand dissociation and CÀCu II homolysis. There are few theoretical studies of C À Cu II homolysis [84] and a ligand effect on bond dissociation energy has not previously been noted, although calculated ligand effects on single electron transfer involving copper complexes have been recently reported. [105] The mechanistic work described in this paper sets the stage for a subsequent detailed mechanistic analysis of our recently reported enantioselective Cu-catalyzed aminooxygenation of alkenes, which can open the door to a more detailed understanding of catalytic, enantioselective, Cu-catalyzed, alkene amination reactions.…”

Section: Resultsmentioning

confidence: 99%

“…Bond dissociation energies were used in this analysis be-cause the C À Cu homolysis transition states were difficult and in most cases impossible to locate. [83,84] The calculated aminocupration transition states TS-A (path A) and TS-B (path B) have distorted square-planar copper geometries (Figure 9). Spin density analysis of transi- www.chemeurj.org tion states TS-A and TS-B indicate the majority of spin density resides on Cu and little increase in nitrogen spin from ground state to transition state is observed.…”

Section: Wwwchemeurjorgmentioning

confidence: 99%

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Evidence for Alkene cis‐Aminocupration, an Aminooxygenation Case Study: Kinetics, EPR Spectroscopy, and DFT Calculations

Paderes

Belding

Fanovic

et al. 2012

Chemistry A European J

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Alkene difunctionalization reactions are important in organic synthesis. We have recently shown that copper(II) complexes can promote and catalyze intramolecular alkene aminooxygenation, carboamination, and diamination reactions. In this contribution, we report a combined experimental and theoretical examination of the mechanism of the copper(II)-promoted olefin aminooxygenation reaction. Kinetics experiments revealed a mechanistic pathway involving an equilibrium reaction between a copper(II) carboxylate complex and the γ-alkenyl sulfonamide substrate and a rate-limiting intramolecular cis-addition of N–Cu across the olefin. Kinetic isotope effect studies support that the cis-aminocupration is the rate-determining step. UV/Vis spectra support a role for the base in the break-up of copper(II) carboxylate dimer to monomeric species. Electron paramagnetic resonance (EPR) spectra provide evidence for a kinetically competent N–Cu intermediate with a CuII oxidation state. Due to the highly similar stereochemical and reactivity trends among the CuII-promoted and catalyzed alkene difunctionalization reactions we have developed, the cis-aminocupration mechanism can reasonably be generalized across the reaction class. The methods and findings disclosed in this report should also prove valuable to the mechanism analysis and optimization of other copper(-II) carboxylate promoted reactions, especially those that take place in aprotic organic solvents.

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Section: Resultsmentioning

confidence: 99%

Section: Wwwchemeurjorgmentioning

confidence: 99%

Evidence for Alkene cis‐Aminocupration, an Aminooxygenation Case Study: Kinetics, EPR Spectroscopy, and DFT Calculations

Paderes

Belding

Fanovic

et al. 2012

Chemistry A European J

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“…After stirring for 1 h, N,N 0 -dimethylimidazolium-2-carboxylate (43.5 mg, 0.31 mmol) was added and the mixture became colorless again. The reaction was stirred at rt for another 1 h Et 2 O (20 mL) was then added and the formed precipitate was filtered off, washed with copious amounts of Et 2 O, and dried in vacuo to give the product as a white solid (96 mg, 73% H,4.72;N,6.56. Found: C,31.14;H,4.70;N.…”

Section: 2mentioning

confidence: 99%

Comparison of carbene and imidazole bonding to a copper(I) center

Wyer

Gucciardo

Leigh

et al. 2011

Journal of Organometallic Chemistry

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“…11 Naturally, we were interested 40 in combining both concepts for the development of a latent catalyst for the Huisgen cycloaddition. While screening different complexes, we observed that [(SIPr)CuCl] 12 (SIPr = N,imidazolin-2-ylidene) was the least reactive catalyst and we envisaged that we could take advantage of such a 45 low reactivity for the development of a latent catalyst for this transformation.…”

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confidence: 99%