Johnny W. Lee scite author profile

The intermolecular C-H trifluoromethoxylation of arenes remains a long-standing and unsolved problem in organic synthesis. Herein, we report the first catalytic protocol employing a novel trifluoromethoxylating reagent and redox-active catalysts for the direct (hetero)aryl C-H trifluoromethoxylation. Our approach is operationally simple, proceeds at room temperature, uses easy-to-handle reagents, requires only 0.03 mol % of redox-active catalysts, does not need specialized reaction apparatus, and tolerates a wide variety of functional groups and complex structures such as sugars and natural product derivatives. Importantly, both ground-state and photoexcited redox-active catalysts are effective. Detailed computational and experimental studies suggest a unique reaction pathway where photoexcitation of the trifluoromethoxylating reagent releases the OCF radical that is trapped by (hetero)arenes. The resulting cyclohexadienyl radicals are oxidized by redox-active catalysts and deprotonated to form the desired products of trifluoromethoxylation.

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Synthesis of Tri‐ and Difluoromethoxylated Compounds by Visible‐Light Photoredox Catalysis

Lee

Ngai

2019

Angew Chem Int Ed

124

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Trifluoromethoxy (OCF3) and difluoromethoxy (OCF2H) groups are fluorinated structural motifs that exhibit unique physicochemical characteristics. Incorporation of these substituents into organic molecules is a highly desirable approach used in medicinal chemistry and drug discovery processes to alter the properties of a parent compound. Recently, tri‐ and difluoromethyl ethers have received increasing attention and several innovative strategies to access these valuable functional groups have been developed. The focus of this Minireview is the use of visible‐light photoredox catalysis in the synthesis of tri‐ and difluoromethyl ethers. Recent photocatalytic strategies for the formation of O−CF3, C−OCF3, O−CF2H, and C−OCF2H bonds as well as other transformations leading to the construction of ORF groups are discussed herein.

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Redox‐Active Reagents for Photocatalytic Generation of the OCF₃ Radical and (Hetero)Aryl C−H Trifluoromethoxylation

et al. 2018

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The trifluoromethoxy (OCF3) radical is of great importance in organic chemistry. Yet, catalytic and selective generation of this radical at room temperature and pressure remains a longstanding challenge. Herein, we report the design and development of a redox- active cationic reagent 1 that enables the formation of the OCF3 radical in a controllable, selective, and catalytic fashion under visible light photocatalytic conditions. More importantly, the reagent allows catalytic, intermolecular C-H trifluoromethoxylation of a broad array of (hetero)arenes and biorelevant compounds. Experimental and computational studies suggest single electron transfer (SET) from excited photoredox catalysts to 1 resulting in exclusive liberation of the OCF3 radical. Addition of this radical to (hetero)arenes gives trifluoromethoxylated cyclohexadienyl radicals that are oxidized and deprotonated to afford the products of trifluoromethoxylation.

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Access to a new class of synthetic building blocks via trifluoromethoxylation of pyridines and pyrimidines

Feng

Lee

et al. 2016

Chem. Sci.

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Since the first synthesis of trifluoromethyl ethers in 1935, the trifluoromethoxy (OCF3) group has made a remarkable impact in medicinal, agrochemical, and materials science research. However, our inability to facilely incorporate the OCF3 group into molecules, especially heteroaromatics, has limited its potential across a broad spectrum of technological applications. Herein, we report a scalable and operationally simple protocol for regioselective trifluoromethoxylation of a wide range of functionalized pyridines and pyrimidines under mild reaction conditions. The trifluoromethoxylated products are useful scaffolds that can be further elaborated by amidation and palladium-catalysed cross coupling reactions. Mechanistic studies suggest that a radical O-trifluoromethylation followed by the OCF3-migration reaction pathway is operable. Given the unique properties of the OCF3 group and the ubiquity of pyridine and pyrimidine in biologically active molecules and functional materials, trifluoromethoxylated pyridines and pyrimidines could serve as valuable building blocks for the discovery and development of new drugs, agrochemicals, and materials.

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Johnny W. Lee

Catalytic C−H Trifluoromethoxylation of Arenes and Heteroarenes

Synthesis of Tri‐ and Difluoromethoxylated Compounds by Visible‐Light Photoredox Catalysis

Redox‐Active Reagents for Photocatalytic Generation of the OCF₃ Radical and (Hetero)Aryl C−H Trifluoromethoxylation

Access to a new class of synthetic building blocks via trifluoromethoxylation of pyridines and pyrimidines

Contact Info

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Resources

About

Johnny W. Lee

Catalytic C−H Trifluoromethoxylation of Arenes and Heteroarenes

Synthesis of Tri‐ and Difluoromethoxylated Compounds by Visible‐Light Photoredox Catalysis

Redox‐Active Reagents for Photocatalytic Generation of the OCF3 Radical and (Hetero)Aryl C−H Trifluoromethoxylation

Access to a new class of synthetic building blocks via trifluoromethoxylation of pyridines and pyrimidines

Contact Info

Product

Resources

About

Redox‐Active Reagents for Photocatalytic Generation of the OCF₃ Radical and (Hetero)Aryl C−H Trifluoromethoxylation