Transition-metal-free hydrogenation of aryl halides: From alcohol to aldehyde

Hong Xing Zheng; Xiang Huan Shan; Jian Ping Qu; Yan Biao Kang

doi:10.1021/acs.orglett.7b02399

Transition-metal-free hydrogenation of aryl halides: From alcohol to aldehyde

Hong Xing Zheng, Xiang Huan Shan, Jian Ping Qu, Yan Biao Kang

School of Chemistry and Moleculai Engineering

University of Science and Technology of China

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

41 Scopus citations

Abstract

A transition-metal-and catalyst-free hydrogenation of aryl halides, promoted by bases with either aldehydes or alcohols, is described. One equivalent of benzaldehyde affords an equal yield as that of 0.5 equiv of benzyl alcohol. The kinetic study reveals that the initial rate of PhCHO is much faster than that of BnOH, in the ratio of nearly 4:1. The radical trapping experiments indicate the radical nature of this reaction. Based on the kinetic study, trapping and KIE experiments, and control experiments, a tentative mechanism is proposed. As a consequence, a wide range of (hetero)aryl iodides and bromides were efficiently reduced to their corresponding (hetero)arenes. Thus, for the first time, aldehydes are directly used as hydrogen source instead of other well-established alcohol-hydrogen sources.

Original language	English
Pages (from-to)	5114-5117
Number of pages	4
Journal	Organic Letters
Volume	19
Issue number	19
DOIs	https://doi.org/10.1021/acs.orglett.7b02399
State	Published - 6 Oct 2017

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title = "Transition-metal-free hydrogenation of aryl halides: From alcohol to aldehyde",

abstract = "A transition-metal-and catalyst-free hydrogenation of aryl halides, promoted by bases with either aldehydes or alcohols, is described. One equivalent of benzaldehyde affords an equal yield as that of 0.5 equiv of benzyl alcohol. The kinetic study reveals that the initial rate of PhCHO is much faster than that of BnOH, in the ratio of nearly 4:1. The radical trapping experiments indicate the radical nature of this reaction. Based on the kinetic study, trapping and KIE experiments, and control experiments, a tentative mechanism is proposed. As a consequence, a wide range of (hetero)aryl iodides and bromides were efficiently reduced to their corresponding (hetero)arenes. Thus, for the first time, aldehydes are directly used as hydrogen source instead of other well-established alcohol-hydrogen sources.",

author = "Zheng, {Hong Xing} and Shan, {Xiang Huan} and Qu, {Jian Ping} and Kang, {Yan Biao}",

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

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doi = "10.1021/acs.orglett.7b02399",

language = "英语",

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TY - JOUR

T1 - Transition-metal-free hydrogenation of aryl halides

T2 - From alcohol to aldehyde

AU - Zheng, Hong Xing

AU - Shan, Xiang Huan

AU - Qu, Jian Ping

AU - Kang, Yan Biao

PY - 2017/10/6

Y1 - 2017/10/6

N2 - A transition-metal-and catalyst-free hydrogenation of aryl halides, promoted by bases with either aldehydes or alcohols, is described. One equivalent of benzaldehyde affords an equal yield as that of 0.5 equiv of benzyl alcohol. The kinetic study reveals that the initial rate of PhCHO is much faster than that of BnOH, in the ratio of nearly 4:1. The radical trapping experiments indicate the radical nature of this reaction. Based on the kinetic study, trapping and KIE experiments, and control experiments, a tentative mechanism is proposed. As a consequence, a wide range of (hetero)aryl iodides and bromides were efficiently reduced to their corresponding (hetero)arenes. Thus, for the first time, aldehydes are directly used as hydrogen source instead of other well-established alcohol-hydrogen sources.

AB - A transition-metal-and catalyst-free hydrogenation of aryl halides, promoted by bases with either aldehydes or alcohols, is described. One equivalent of benzaldehyde affords an equal yield as that of 0.5 equiv of benzyl alcohol. The kinetic study reveals that the initial rate of PhCHO is much faster than that of BnOH, in the ratio of nearly 4:1. The radical trapping experiments indicate the radical nature of this reaction. Based on the kinetic study, trapping and KIE experiments, and control experiments, a tentative mechanism is proposed. As a consequence, a wide range of (hetero)aryl iodides and bromides were efficiently reduced to their corresponding (hetero)arenes. Thus, for the first time, aldehydes are directly used as hydrogen source instead of other well-established alcohol-hydrogen sources.

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JO - Organic Letters

JF - Organic Letters

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ER -

Transition-metal-free hydrogenation of aryl halides: From alcohol to aldehyde

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