Copper-Catalyzed Radical Allene C(sp2)−H Cyanation

Youhao Wei; Zheng Wang; Kaifeng Wang; Jiang Kai Qiu; Zhaoshan Wang; Haotian Li; Xiu Duan; Kai Guo; Xiaoguang Bao; Xinxin Wu

doi:10.1002/anie.202317132

Copper-Catalyzed Radical Allene C(sp²)−H Cyanation

Youhao Wei, Zheng Wang, Kaifeng Wang, Jiang Kai Qiu, Zhaoshan Wang, Haotian Li, Xiu Duan, Kai Guo, Xiaoguang Bao, Xinxin Wu

COLLEGE OF BIOTECHNOLOGY AND PHARMACEUTICAL ENGINEERING

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

9 Scopus citations

Abstract

While the hydrogen atom abstraction (HAA) from C(sp³)−H bond has been well explored, the radical-mediated chemo- and regio-selective functionalization of allenic C(sp²)−H bond via direct HAA from C(sp²)−H bond of allene remains an unsolved challenge in synthetic chemistry. This is primarily due to inherent challenges with addition of radical intermediates to allenes, regioselectivity of HAA process, instability of allenyl radical toward propargyl radical et al. Herein, we report a copper catalyzed allenic C(sp²)−H cyanation of an array of tri- and di-substituted allenes with exceptional site-selectivity, while mono-substituted allene was successfully cyanated, albeit with a low yield. In the developed strategy, steric N-fluoro-N-alkylsulfonamide, serving as precursor of hydrogen atom abstractor, plays a crucial role in achieving the desired regioselectivity and avoiding addition of N-centered radical to allene.

Original language	English
Article number	e202317132
Journal	Angewandte Chemie - International Edition
Volume	63
Issue number	3
DOIs	https://doi.org/10.1002/anie.202317132
State	Published - 15 Jan 2024

Keywords

Copper Catalysis
Cyanation
C−H Functionalization
Radical Reaction
Regioselectivity

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title = "Copper-Catalyzed Radical Allene C(sp2)−H Cyanation",

abstract = "While the hydrogen atom abstraction (HAA) from C(sp3)−H bond has been well explored, the radical-mediated chemo- and regio-selective functionalization of allenic C(sp2)−H bond via direct HAA from C(sp2)−H bond of allene remains an unsolved challenge in synthetic chemistry. This is primarily due to inherent challenges with addition of radical intermediates to allenes, regioselectivity of HAA process, instability of allenyl radical toward propargyl radical et al. Herein, we report a copper catalyzed allenic C(sp2)−H cyanation of an array of tri- and di-substituted allenes with exceptional site-selectivity, while mono-substituted allene was successfully cyanated, albeit with a low yield. In the developed strategy, steric N-fluoro-N-alkylsulfonamide, serving as precursor of hydrogen atom abstractor, plays a crucial role in achieving the desired regioselectivity and avoiding addition of N-centered radical to allene.",

keywords = "Copper Catalysis, Cyanation, C−H Functionalization, Radical Reaction, Regioselectivity",

author = "Youhao Wei and Zheng Wang and Kaifeng Wang and Qiu, {Jiang Kai} and Zhaoshan Wang and Haotian Li and Xiu Duan and Kai Guo and Xiaoguang Bao and Xinxin Wu",

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doi = "10.1002/anie.202317132",

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T1 - Copper-Catalyzed Radical Allene C(sp2)−H Cyanation

AU - Wei, Youhao

AU - Wang, Zheng

AU - Wang, Kaifeng

AU - Qiu, Jiang Kai

AU - Wang, Zhaoshan

AU - Li, Haotian

AU - Duan, Xiu

AU - Guo, Kai

AU - Bao, Xiaoguang

AU - Wu, Xinxin

PY - 2024/1/15

Y1 - 2024/1/15

N2 - While the hydrogen atom abstraction (HAA) from C(sp3)−H bond has been well explored, the radical-mediated chemo- and regio-selective functionalization of allenic C(sp2)−H bond via direct HAA from C(sp2)−H bond of allene remains an unsolved challenge in synthetic chemistry. This is primarily due to inherent challenges with addition of radical intermediates to allenes, regioselectivity of HAA process, instability of allenyl radical toward propargyl radical et al. Herein, we report a copper catalyzed allenic C(sp2)−H cyanation of an array of tri- and di-substituted allenes with exceptional site-selectivity, while mono-substituted allene was successfully cyanated, albeit with a low yield. In the developed strategy, steric N-fluoro-N-alkylsulfonamide, serving as precursor of hydrogen atom abstractor, plays a crucial role in achieving the desired regioselectivity and avoiding addition of N-centered radical to allene.

AB - While the hydrogen atom abstraction (HAA) from C(sp3)−H bond has been well explored, the radical-mediated chemo- and regio-selective functionalization of allenic C(sp2)−H bond via direct HAA from C(sp2)−H bond of allene remains an unsolved challenge in synthetic chemistry. This is primarily due to inherent challenges with addition of radical intermediates to allenes, regioselectivity of HAA process, instability of allenyl radical toward propargyl radical et al. Herein, we report a copper catalyzed allenic C(sp2)−H cyanation of an array of tri- and di-substituted allenes with exceptional site-selectivity, while mono-substituted allene was successfully cyanated, albeit with a low yield. In the developed strategy, steric N-fluoro-N-alkylsulfonamide, serving as precursor of hydrogen atom abstractor, plays a crucial role in achieving the desired regioselectivity and avoiding addition of N-centered radical to allene.

KW - Copper Catalysis

KW - Cyanation

KW - C−H Functionalization

KW - Radical Reaction

KW - Regioselectivity

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U2 - 10.1002/anie.202317132

DO - 10.1002/anie.202317132

M3 - 文章

C2 - 38038249

AN - SCOPUS:85179363815

SN - 1433-7851

VL - 63

JO - Angewandte Chemie - International Edition

JF - Angewandte Chemie - International Edition

IS - 3

M1 - e202317132

ER -

Copper-Catalyzed Radical Allene C(sp²)−H Cyanation

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