Hui‐Qing Geng scite author profile

Carbon monoxide is one of the most important C1 molecules in organic chemistry. Many novel procedures for its conversion have been developed, and some have even been industrialized. In this review, we discuss and categorize CO chemistry into four classes: (1) transition-metal-mediated carbonylation, (2) strong-acid-initiated cationic carbonylation, (3) anionic carbonylation, and (4) free-radical carbonylation. Relevant achievements are selected and discussed in detail.

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Palladium-Catalyzed Thiocarbonylation of Alkenes toward Linear Thioesters

Zhao

Geng

et al. 2021

ACS Catal.

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Thiocarbonylation of alkenes offers an ideal procedure for the synthesis of thioesters. However, thiocarbonylation of alkenes, especially styrenes, to produce valuable linear thioesters has remained a challenge. In this Letter, a general palladium-catalyzed thiocarbonylation of alkenes to produce linear thioesters has been achieved. Moderate to good yields of desired thioesters can be produced from readily available alkenes in a straightforward manner.

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Palladium-Catalyzed Carbonylative Synthesis of α,β-Unsaturated Amides from Styrenes and Nitroarenes

Peng

Geng

et al. 2018

Org. Lett.

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Palladium‐Catalyzed Perfluoroalkylative Carbonylation of Unactivated Alkenes: Access to β‐Perfluoroalkyl Esters

Zhang

Geng

2021

Angew Chem Int Ed

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Transition-metal-catalyzed multi-component carbonylation represents an efficient strategy for the preparation of various functionalizedc arbonyl-containing compounds. Herein, we report ag eneral palladium-catalyzed perfluoroalkylative carbonylation of unactivated alkenes using inexpensive and readily available carbon monoxide as the C1 source and perfluoroalkyl halides as the coupling partner.Awide range of phenols and alcohols were transformed into the corresponding b-perfluoroalkyl esters in high yields with broad functional group tolerance and good chemoselectivity.A dditionally,alkylhalides can be utilized as alkoxy source as well to give the desired esters.M oreover,s everal pharmaceutical and bio-active molecules were also suitable substrates for this onepot multi-component carbonylation process to give the targeted products in good yields.

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Palladium-Catalyzed Regioselective Carbonylative Coupling/Amination of Aryl Iodides with Unactivated Alkenes: Efficient Synthesis of β-Aminoketones

Peng

et al. 2019

ACS Catal.

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The carbonylative coupling of aryl halides with unactivated alkenes remains a challenge, because of the low reactivity of acyl-palladium intermediate to the olefins. In this paper, a palladium-catalyzed carbonylative coupling/amination of aryl iodides with unactivated alkenes for the synthesis of βaminoketone derivatives has been developed. With the assistance of a directing group (8-aminoquinoline, AQ), the coordination of the olefin to acyl-palladium complex can be enhanced, thereby promoting the acylpalladation across the CC double bonds. A broad range of β-aminoketone derivatives were prepared in moderate to excellent yields with complete regioselectivity by using 4-pentenoic and 2-vinylbenzoic amide derivatives as the starting materials. This methodology involves the formation of two C−C bonds as well as one C−N bond, and provided a method for the carbonylative difunctionalization of unactivated alkenes.

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Hui‐Qing Geng

The Chemistry of CO: Carbonylation

Palladium-Catalyzed Thiocarbonylation of Alkenes toward Linear Thioesters

Palladium-Catalyzed Carbonylative Synthesis of α,β-Unsaturated Amides from Styrenes and Nitroarenes

Palladium‐Catalyzed Perfluoroalkylative Carbonylation of Unactivated Alkenes: Access to β‐Perfluoroalkyl Esters

Palladium-Catalyzed Regioselective Carbonylative Coupling/Amination of Aryl Iodides with Unactivated Alkenes: Efficient Synthesis of β-Aminoketones

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