Merging Halogen-Atom Transfer (XAT) and Cobalt Catalysis to Override E2-Selectivity in the Elimination of Alkyl Halides: A Mild Route towardcontra-Thermodynamic Olefins

Huaibo Zhao; Alastair Mcmillan; Timothée Constantin; Rory Mykura; Fabio Julia; Daniele Leonori

doi:10.1021/jacs.1c06768

Merging Halogen-Atom Transfer (XAT) and Cobalt Catalysis to Override E2-Selectivity in the Elimination of Alkyl Halides: A Mild Route towardcontra-Thermodynamic Olefins

Huaibo Zhao, Alastair Mcmillan, Timothée Constantin, Rory Mykura, Fabio Julia, Daniele Leonori

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Abstract

We report here a mechanistically distinct tactic to carry E2-type eliminations on alkyl halides. This strategy exploits the interplay of α-aminoalkyl radical-mediated halogen-atom transfer (XAT) with desaturative cobalt catalysis. The methodology is high-yielding, tolerates many functionalities, and was used to access industrially relevant materials. In contrast to thermal E2 eliminations where unsymmetrical substrates give regioisomeric mixtures, this approach enables, by fine-tuning of the electronic and steric properties of the cobalt catalyst, to obtain high olefin positional selectivity. This unprecedented mechanistic feature has allowed access tocontra-thermodynamic olefins, elusive by E2 eliminations.

Original language	English
Pages (from-to)	14806-14813
Number of pages	8
Journal	Journal of the American Chemical Society
Volume	143
Issue number	36
Early online date	1 Sept 2021
DOIs	https://doi.org/10.1021/jacs.1c06768
Publication status	Published - 15 Sept 2021

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title = "Merging Halogen-Atom Transfer (XAT) and Cobalt Catalysis to Override E2-Selectivity in the Elimination of Alkyl Halides: A Mild Route towardcontra-Thermodynamic Olefins",

abstract = "We report here a mechanistically distinct tactic to carry E2-type eliminations on alkyl halides. This strategy exploits the interplay of α-aminoalkyl radical-mediated halogen-atom transfer (XAT) with desaturative cobalt catalysis. The methodology is high-yielding, tolerates many functionalities, and was used to access industrially relevant materials. In contrast to thermal E2 eliminations where unsymmetrical substrates give regioisomeric mixtures, this approach enables, by fine-tuning of the electronic and steric properties of the cobalt catalyst, to obtain high olefin positional selectivity. This unprecedented mechanistic feature has allowed access tocontra-thermodynamic olefins, elusive by E2 eliminations.",

author = "Huaibo Zhao and Alastair Mcmillan and Timoth{\'e}e Constantin and Rory Mykura and Fabio Julia and Daniele Leonori",

note = "Funding Information: D.L. would like to thank EPSRC for a Fellowship (EP/P004997/1) and the European Research Council for a research grant (758427). H. Z. would like to thank the Marie Curie Actions for a Fellowship (840318). The authors would like to thank Daniel Smith for preliminary results. The authors would like to acknowledge the assistance given by Research IT and the use of Computational Shared Facilities at the University of Manchester. Publisher Copyright: {\textcopyright} 2021 American Chemical Society",

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Merging Halogen-Atom Transfer (XAT) and Cobalt Catalysis to Override E2-Selectivity in the Elimination of Alkyl Halides: A Mild Route towardcontra-Thermodynamic Olefins. / Zhao, Huaibo; Mcmillan, Alastair; Constantin, Timothée et al.
In: Journal of the American Chemical Society, Vol. 143, No. 36, 15.09.2021, p. 14806-14813.

Research output: Contribution to journal › Article › peer-review

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Merging Halogen-Atom Transfer (XAT) and Cobalt Catalysis to Override E2-Selectivity in the Elimination of Alkyl Halides: A Mild Route towardcontra-Thermodynamic Olefins

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