Aliphatic C-H Bond Iodination by a N-Iodoamide and Isolation of an Elusive N-Amidyl Radical

Alexander Artaryan; Artur Mardyukov; Kseniya Kulbitski; Idan Avigdori; Gennady A. Nisnevich; Peter R. Schreiner; Mark Gandelman

doi:10.1021/acs.joc.7b00557

Aliphatic C-H Bond Iodination by a N-Iodoamide and Isolation of an Elusive N-Amidyl Radical

Alexander Artaryan
, Artur Mardyukov
, Kseniya Kulbitski
, Idan Avigdori
, Gennady A. Nisnevich
, Peter R. Schreiner
, Mark Gandelman

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

31 Scopus citations

Abstract

Contrary to C-H chlorination and bromination, the direct iodination of alkanes represents a great challenge. We reveal a new N-iodoamide that is capable of a direct and efficient C-H bond iodination of various cyclic and acyclic alkanes providing iodoalkanes in good yields. This is the first use of N-iodoamide for C-H bond iodination. The method also works well for benzylic C-H bonds, thereby constituting the missing version of the Wohl-Ziegler iodination reaction. Mechanistic details were elucidated by DFT computations, and the N-centered radical derived from the used N-iodoamide, which is the key intermediate in this process, was matrix-isolated in a solid argon matrix and characterized by UV-vis as well as IR spectroscopy.

Original language	English
Pages (from-to)	7093-7100
Number of pages	8
Journal	Journal of Organic Chemistry
Volume	82
Issue number	14
DOIs	https://doi.org/10.1021/acs.joc.7b00557
State	Published - 21 Jul 2017
Externally published	Yes

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© 2017 American Chemical Society.

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10.1021/acs.joc.7b00557

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title = "Aliphatic C-H Bond Iodination by a N-Iodoamide and Isolation of an Elusive N-Amidyl Radical",

abstract = "Contrary to C-H chlorination and bromination, the direct iodination of alkanes represents a great challenge. We reveal a new N-iodoamide that is capable of a direct and efficient C-H bond iodination of various cyclic and acyclic alkanes providing iodoalkanes in good yields. This is the first use of N-iodoamide for C-H bond iodination. The method also works well for benzylic C-H bonds, thereby constituting the missing version of the Wohl-Ziegler iodination reaction. Mechanistic details were elucidated by DFT computations, and the N-centered radical derived from the used N-iodoamide, which is the key intermediate in this process, was matrix-isolated in a solid argon matrix and characterized by UV-vis as well as IR spectroscopy.",

author = "Alexander Artaryan and Artur Mardyukov and Kseniya Kulbitski and Idan Avigdori and Nisnevich, \{Gennady A.\} and Schreiner, \{Peter R.\} and Mark Gandelman",

note = "Publisher Copyright: {\textcopyright} 2017 American Chemical Society.",

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doi = "10.1021/acs.joc.7b00557",

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AU - Artaryan, Alexander

AU - Mardyukov, Artur

AU - Kulbitski, Kseniya

AU - Avigdori, Idan

AU - Nisnevich, Gennady A.

AU - Schreiner, Peter R.

AU - Gandelman, Mark

PY - 2017/7/21

Y1 - 2017/7/21

N2 - Contrary to C-H chlorination and bromination, the direct iodination of alkanes represents a great challenge. We reveal a new N-iodoamide that is capable of a direct and efficient C-H bond iodination of various cyclic and acyclic alkanes providing iodoalkanes in good yields. This is the first use of N-iodoamide for C-H bond iodination. The method also works well for benzylic C-H bonds, thereby constituting the missing version of the Wohl-Ziegler iodination reaction. Mechanistic details were elucidated by DFT computations, and the N-centered radical derived from the used N-iodoamide, which is the key intermediate in this process, was matrix-isolated in a solid argon matrix and characterized by UV-vis as well as IR spectroscopy.

AB - Contrary to C-H chlorination and bromination, the direct iodination of alkanes represents a great challenge. We reveal a new N-iodoamide that is capable of a direct and efficient C-H bond iodination of various cyclic and acyclic alkanes providing iodoalkanes in good yields. This is the first use of N-iodoamide for C-H bond iodination. The method also works well for benzylic C-H bonds, thereby constituting the missing version of the Wohl-Ziegler iodination reaction. Mechanistic details were elucidated by DFT computations, and the N-centered radical derived from the used N-iodoamide, which is the key intermediate in this process, was matrix-isolated in a solid argon matrix and characterized by UV-vis as well as IR spectroscopy.

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JF - Journal of Organic Chemistry

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ER -

Aliphatic C-H Bond Iodination by a N-Iodoamide and Isolation of an Elusive N-Amidyl Radical

Abstract

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