Photoredox/HAT-Catalyzed Dearomative Nucleophilic Addition of the CO2 Radical Anion to (Hetero)Aromatics

The radical anion of CO2 (CO2 •–) is a strongly nucleophilic radical species with rapidly emerging applications in contemporary organic chemistry. This radical species exhibits high reactivity in single-electron reduction reactions due to the concomitant release of stable CO2, or Giese-type reaction...

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Veröffentlicht in:	ACS catalysis 2023-02, Vol.13 (4), p.2482-2488
Hauptverfasser:	Mangaonkar, Saeesh R., Hayashi, Hiroki, Takano, Hideaki, Kanna, Wataru, Maeda, Satoshi, Mita, Tsuyoshi
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creator	Mangaonkar, Saeesh R. Hayashi, Hiroki Takano, Hideaki Kanna, Wataru Maeda, Satoshi Mita, Tsuyoshi
description	The radical anion of CO2 (CO2 •–) is a strongly nucleophilic radical species with rapidly emerging applications in contemporary organic chemistry. This radical species exhibits high reactivity in single-electron reduction reactions due to the concomitant release of stable CO2, or Giese-type reactions, especially for electron-deficient alkenes and styrene derivatives. In contrast to previous reports, we herein disclose the development of a robust method for the introduction of CO2 •–, which can be generated from cesium formate under photoredox/hydrogen atom transfer (HAT) catalysis, into stable heteroaromatics such as benzofuran, benzothiophene, and indole derivatives to afford synthetically useful α-oxy, α-thio, and α-amino acid derivatives in moderate to high yield. In addition, when using electron-deficient naphthalene derivatives, both single-electron reduction and Giese-type nucleophilic addition occur simultaneously to produce carboxylated tetrahydronaphthalene derivatives in good yield. Moreover, one of the tetrahydronaphthalenes that bear a cyano group was transformed into the corresponding γ-butyrolactam via reduction of the cyano functionality through hydrogenation followed by cyclization. To the best of our knowledge, these dearomative carboxylation reactions with metal formates under photoredox/HAT conditions are unprecedented, thus providing a synthetic option for the introduction of a C1 source into stable (hetero)aromatics.
doi_str_mv	10.1021/acscatal.2c06192
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This radical species exhibits high reactivity in single-electron reduction reactions due to the concomitant release of stable CO2, or Giese-type reactions, especially for electron-deficient alkenes and styrene derivatives. In contrast to previous reports, we herein disclose the development of a robust method for the introduction of CO2 •–, which can be generated from cesium formate under photoredox/hydrogen atom transfer (HAT) catalysis, into stable heteroaromatics such as benzofuran, benzothiophene, and indole derivatives to afford synthetically useful α-oxy, α-thio, and α-amino acid derivatives in moderate to high yield. In addition, when using electron-deficient naphthalene derivatives, both single-electron reduction and Giese-type nucleophilic addition occur simultaneously to produce carboxylated tetrahydronaphthalene derivatives in good yield. 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This radical species exhibits high reactivity in single-electron reduction reactions due to the concomitant release of stable CO2, or Giese-type reactions, especially for electron-deficient alkenes and styrene derivatives. In contrast to previous reports, we herein disclose the development of a robust method for the introduction of CO2 •–, which can be generated from cesium formate under photoredox/hydrogen atom transfer (HAT) catalysis, into stable heteroaromatics such as benzofuran, benzothiophene, and indole derivatives to afford synthetically useful α-oxy, α-thio, and α-amino acid derivatives in moderate to high yield. In addition, when using electron-deficient naphthalene derivatives, both single-electron reduction and Giese-type nucleophilic addition occur simultaneously to produce carboxylated tetrahydronaphthalene derivatives in good yield. 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title	Photoredox/HAT-Catalyzed Dearomative Nucleophilic Addition of the CO2 Radical Anion to (Hetero)Aromatics
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