Allylic amination and carbon–carbon double bond transposition catalyzed by cobalt(II) azodioxide complexes

Kylin A. Emhoff; Ahmed M.H. Salem; Lakshmi Balaraman; Drew M. Kingery; Warren Christopher Boyd

doi:10.1016/j.rechem.2019.100016

Allylic amination and carbon–carbon double bond transposition catalyzed by cobalt(II) azodioxide complexes

Kylin A. Emhoff
, Ahmed M.H. Salem
, Lakshmi Balaraman
, Drew M. Kingery
, Warren Christopher Boyd

Cleveland State University

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

2 Scopus citations

Abstract

The unusual cobalt(II) diphenylazodioxide complex salts [Co(az)4](PF6)2 and [Co(bpy)(az)2](PF6)2 have been shown to catalyze the allylic amination/C–C double bond transposition reaction of 2-methyl-2-pentene with PhNHOH, with a turnover number of about 4. The mechanism is proposed to involve a nitroso-ene-like transfer of a PhNO moiety from the azodioxide ligand to the alkene, followed by reduction of the organic product to yield a cobalt(III) intermediate, which is itself reduced back to cobalt(II) by PhNHOH, regenerating PhNO. Hetero-Diels-Alder trapping experiments suggest that an “off-metal” mechanism, in which PhNO is released from the cobalt complexes and reacts with the alkenes, is operative, in contrast to an “on-metal” mechanism observed by Nicholas and coworkers for [Fe(az)3](FeCl4)2.

Original language	English
Article number	100016
Journal	Results in Chemistry
Volume	2
Issue number	Issue
DOIs	https://doi.org/10.1016/j.rechem.2019.100016
State	Published - Jan 1 2020

Keywords

Allylic alkenes
Amination
Azodioxide
Catalysis
Cobalt

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title = "Allylic amination and carbon–carbon double bond transposition catalyzed by cobalt(II) azodioxide complexes",

abstract = "The unusual cobalt(II) diphenylazodioxide complex salts [Co(az)4](PF6)2 and [Co(bpy)(az)2](PF6)2 have been shown to catalyze the allylic amination/C–C double bond transposition reaction of 2-methyl-2-pentene with PhNHOH, with a turnover number of about 4. The mechanism is proposed to involve a nitroso-ene-like transfer of a PhNO moiety from the azodioxide ligand to the alkene, followed by reduction of the organic product to yield a cobalt(III) intermediate, which is itself reduced back to cobalt(II) by PhNHOH, regenerating PhNO. Hetero-Diels-Alder trapping experiments suggest that an “off-metal” mechanism, in which PhNO is released from the cobalt complexes and reacts with the alkenes, is operative, in contrast to an “on-metal” mechanism observed by Nicholas and coworkers for [Fe(az)3](FeCl4)2.",

keywords = "Allylic alkenes, Amination, Azodioxide, Catalysis, Cobalt",

author = "Emhoff, \{Kylin A.\} and Salem, \{Ahmed M.H.\} and Lakshmi Balaraman and Kingery, \{Drew M.\} and Boyd, \{Warren Christopher\}",

year = "2020",

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doi = "10.1016/j.rechem.2019.100016",

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volume = "2",

journal = "Results in Chemistry",

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T1 - Allylic amination and carbon–carbon double bond transposition catalyzed by cobalt(II) azodioxide complexes

AU - Emhoff, Kylin A.

AU - Salem, Ahmed M.H.

AU - Balaraman, Lakshmi

AU - Kingery, Drew M.

AU - Boyd, Warren Christopher

PY - 2020/1/1

Y1 - 2020/1/1

N2 - The unusual cobalt(II) diphenylazodioxide complex salts [Co(az)4](PF6)2 and [Co(bpy)(az)2](PF6)2 have been shown to catalyze the allylic amination/C–C double bond transposition reaction of 2-methyl-2-pentene with PhNHOH, with a turnover number of about 4. The mechanism is proposed to involve a nitroso-ene-like transfer of a PhNO moiety from the azodioxide ligand to the alkene, followed by reduction of the organic product to yield a cobalt(III) intermediate, which is itself reduced back to cobalt(II) by PhNHOH, regenerating PhNO. Hetero-Diels-Alder trapping experiments suggest that an “off-metal” mechanism, in which PhNO is released from the cobalt complexes and reacts with the alkenes, is operative, in contrast to an “on-metal” mechanism observed by Nicholas and coworkers for [Fe(az)3](FeCl4)2.

AB - The unusual cobalt(II) diphenylazodioxide complex salts [Co(az)4](PF6)2 and [Co(bpy)(az)2](PF6)2 have been shown to catalyze the allylic amination/C–C double bond transposition reaction of 2-methyl-2-pentene with PhNHOH, with a turnover number of about 4. The mechanism is proposed to involve a nitroso-ene-like transfer of a PhNO moiety from the azodioxide ligand to the alkene, followed by reduction of the organic product to yield a cobalt(III) intermediate, which is itself reduced back to cobalt(II) by PhNHOH, regenerating PhNO. Hetero-Diels-Alder trapping experiments suggest that an “off-metal” mechanism, in which PhNO is released from the cobalt complexes and reacts with the alkenes, is operative, in contrast to an “on-metal” mechanism observed by Nicholas and coworkers for [Fe(az)3](FeCl4)2.

KW - Allylic alkenes

KW - Amination

KW - Azodioxide

KW - Catalysis

KW - Cobalt

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JF - Results in Chemistry

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ER -

Allylic amination and carbon–carbon double bond transposition catalyzed by cobalt(II) azodioxide complexes

Abstract

Keywords

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