Gold-Catalyzed Diyne-Ene Annulation for the Synthesis of Polysubstituted Benzenes through Formal [3+3] Approach with Amide as the Critical Co-Catalyst

Jingwen Wei; Thong Pham; Emmanuel Ifeanyi Attah; Mengjia Liu; Timothy Yaroshuk; Hao Chen; Lukasz Wojtas; Xiaodong Shi

doi:10.1002/anie.202407360

Gold-Catalyzed Diyne-Ene Annulation for the Synthesis of Polysubstituted Benzenes through Formal [3+3] Approach with Amide as the Critical Co-Catalyst

Jingwen Wei, Thong Pham, Emmanuel Ifeanyi Attah, Mengjia Liu, Timothy Yaroshuk, Hao Chen, Lukasz Wojtas, Xiaodong Shi

Chemistry and Environmental Science

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

2 Scopus citations

Abstract

The one-step synthesis of tetra-substituted benzenes was accomplished via gold-catalyzed diyne-ene annulation. Distinguished from prior modification methods, this novel strategy undergoes formal [3+3] cyclization, producing polysubstituted benzenes with exceptional efficiency. The critical factor enabling this transformation was the introduction of amides, which were reported for the first time in gold catalysis as covalent nucleophilic co-catalysts. This interesting protocol not only offers a new strategy to achieve functional benzenes with high efficiency, but also enlightens potential new reaction pathways within gold-catalyzed alkyne activation processes.

Original language	English (US)
Article number	e202407360
Journal	Angewandte Chemie - International Edition
Volume	63
Issue number	39
DOIs	https://doi.org/10.1002/anie.202407360
State	Published - Sep 23 2024

All Science Journal Classification (ASJC) codes

Catalysis
General Chemistry

Keywords

Amide Catalysis
Diyne-ene
Gold-Catalysis
Polysubstituted benzene
[3+3] Cyclization

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10.1002/anie.202407360

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title = "Gold-Catalyzed Diyne-Ene Annulation for the Synthesis of Polysubstituted Benzenes through Formal [3+3] Approach with Amide as the Critical Co-Catalyst",

abstract = "The one-step synthesis of tetra-substituted benzenes was accomplished via gold-catalyzed diyne-ene annulation. Distinguished from prior modification methods, this novel strategy undergoes formal [3+3] cyclization, producing polysubstituted benzenes with exceptional efficiency. The critical factor enabling this transformation was the introduction of amides, which were reported for the first time in gold catalysis as covalent nucleophilic co-catalysts. This interesting protocol not only offers a new strategy to achieve functional benzenes with high efficiency, but also enlightens potential new reaction pathways within gold-catalyzed alkyne activation processes.",

keywords = "Amide Catalysis, Diyne-ene, Gold-Catalysis, Polysubstituted benzene, [3+3] Cyclization",

author = "Jingwen Wei and Thong Pham and Attah, {Emmanuel Ifeanyi} and Mengjia Liu and Timothy Yaroshuk and Hao Chen and Lukasz Wojtas and Xiaodong Shi",

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doi = "10.1002/anie.202407360",

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AU - Wei, Jingwen

AU - Pham, Thong

AU - Attah, Emmanuel Ifeanyi

AU - Liu, Mengjia

AU - Yaroshuk, Timothy

AU - Chen, Hao

AU - Wojtas, Lukasz

AU - Shi, Xiaodong

PY - 2024/9/23

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AB - The one-step synthesis of tetra-substituted benzenes was accomplished via gold-catalyzed diyne-ene annulation. Distinguished from prior modification methods, this novel strategy undergoes formal [3+3] cyclization, producing polysubstituted benzenes with exceptional efficiency. The critical factor enabling this transformation was the introduction of amides, which were reported for the first time in gold catalysis as covalent nucleophilic co-catalysts. This interesting protocol not only offers a new strategy to achieve functional benzenes with high efficiency, but also enlightens potential new reaction pathways within gold-catalyzed alkyne activation processes.

KW - Amide Catalysis

KW - Diyne-ene

KW - Gold-Catalysis

KW - Polysubstituted benzene

KW - [3+3] Cyclization

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Gold-Catalyzed Diyne-Ene Annulation for the Synthesis of Polysubstituted Benzenes through Formal [3+3] Approach with Amide as the Critical Co-Catalyst

Abstract

All Science Journal Classification (ASJC) codes

Keywords

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