Carbonylative Cross-Electrophile Coupling between Aryl Bromides and Aryl Triflates Enabled by Palladium and Rhodium Cooperative Catalysis and CO as Reductant

Gang Chen; Ruoxin Zhou; Xuemei Zhang; Xue Xiao; Søren Kramer; Gui Juan Cheng; Zhong Lian

doi:10.1021/acscatal.2c04211

Carbonylative Cross-Electrophile Coupling between Aryl Bromides and Aryl Triflates Enabled by Palladium and Rhodium Cooperative Catalysis and CO as Reductant

Gang Chen, Ruoxin Zhou, Xuemei Zhang, Xue Xiao, Søren Kramer, Gui Juan Cheng, Zhong Lian^*

^*Corresponding author for this work

Department of Chemistry

Research output: Contribution to journal › Journal article › Research › peer-review

Abstract

Ketones are among the most useful functional groups in organic synthesis. Here, we report a carbonylative cross-electrophile coupling reaction that utilizes carbon monoxide gas as both carbonyl source and reductant. The use of Pd/Rh cooperative catalysis enables the carbonylative coupling of easily accessible aryl triflates and aryl bromides. Unlike previous carbonylative cross-electrophile coupling reactions, the method does not require addition of a stoichiometric metal reductant. Notably, density functional theory (DFT) calculations and isotope-labeling indicate that CO serves as the reductant.

Original language	English
Journal	ACS Catalysis
Volume	12
Issue number	23
Pages (from-to)	14582-14591
ISSN	2155-5435
DOIs	https://doi.org/10.1021/acscatal.2c04211
Publication status	Published - 2022

Keywords

Carbon monoxide
Carbonylation
Cooperative catalysis
Cross-electrophile coupling
Pd/Rh catalysis

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10.1021/acscatal.2c04211

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title = "Carbonylative Cross-Electrophile Coupling between Aryl Bromides and Aryl Triflates Enabled by Palladium and Rhodium Cooperative Catalysis and CO as Reductant",

abstract = "Ketones are among the most useful functional groups in organic synthesis. Here, we report a carbonylative cross-electrophile coupling reaction that utilizes carbon monoxide gas as both carbonyl source and reductant. The use of Pd/Rh cooperative catalysis enables the carbonylative coupling of easily accessible aryl triflates and aryl bromides. Unlike previous carbonylative cross-electrophile coupling reactions, the method does not require addition of a stoichiometric metal reductant. Notably, density functional theory (DFT) calculations and isotope-labeling indicate that CO serves as the reductant.",

keywords = "Carbon monoxide, Carbonylation, Cooperative catalysis, Cross-electrophile coupling, Pd/Rh catalysis",

author = "Gang Chen and Ruoxin Zhou and Xuemei Zhang and Xue Xiao and S{\o}ren Kramer and Cheng, {Gui Juan} and Zhong Lian",

year = "2022",

doi = "10.1021/acscatal.2c04211",

language = "English",

volume = "12",

pages = "14582--14591",

journal = "ACS Catalysis",

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TY - JOUR

T1 - Carbonylative Cross-Electrophile Coupling between Aryl Bromides and Aryl Triflates Enabled by Palladium and Rhodium Cooperative Catalysis and CO as Reductant

AU - Chen, Gang

AU - Zhou, Ruoxin

AU - Zhang, Xuemei

AU - Xiao, Xue

AU - Kramer, Søren

AU - Cheng, Gui Juan

AU - Lian, Zhong

PY - 2022

Y1 - 2022

N2 - Ketones are among the most useful functional groups in organic synthesis. Here, we report a carbonylative cross-electrophile coupling reaction that utilizes carbon monoxide gas as both carbonyl source and reductant. The use of Pd/Rh cooperative catalysis enables the carbonylative coupling of easily accessible aryl triflates and aryl bromides. Unlike previous carbonylative cross-electrophile coupling reactions, the method does not require addition of a stoichiometric metal reductant. Notably, density functional theory (DFT) calculations and isotope-labeling indicate that CO serves as the reductant.

AB - Ketones are among the most useful functional groups in organic synthesis. Here, we report a carbonylative cross-electrophile coupling reaction that utilizes carbon monoxide gas as both carbonyl source and reductant. The use of Pd/Rh cooperative catalysis enables the carbonylative coupling of easily accessible aryl triflates and aryl bromides. Unlike previous carbonylative cross-electrophile coupling reactions, the method does not require addition of a stoichiometric metal reductant. Notably, density functional theory (DFT) calculations and isotope-labeling indicate that CO serves as the reductant.

KW - Carbon monoxide

KW - Carbonylation

KW - Cooperative catalysis

KW - Cross-electrophile coupling

KW - Pd/Rh catalysis

U2 - 10.1021/acscatal.2c04211

DO - 10.1021/acscatal.2c04211

M3 - Journal article

AN - SCOPUS:85142152511

SN - 2155-5435

VL - 12

SP - 14582

EP - 14591

JO - ACS Catalysis

JF - ACS Catalysis

IS - 23

ER -

Carbonylative Cross-Electrophile Coupling between Aryl Bromides and Aryl Triflates Enabled by Palladium and Rhodium Cooperative Catalysis and CO as Reductant

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Keywords

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