Kaori Kamijo scite author profile

The catalytic introduction of an allyl group at nonacidic C(sp)-H bonds was achieved under photoirradiation, in which 1,2-bis(phenylsulfonyl)-2-propene acts as an allyl source and 5,7,12,14-pentacenetetrone (PT) works as a C-H bond-cleaving catalyst. A variety of substances, including alkanes, carbamates, ethers, sulfides, and alcohols, were chemoselectively allylated in a single step under neutral conditions. The present transformation is catalyzed solely by an organic molecule, PT, and proceeds smoothly even under visible light irradiation (425 nm) in the case of alkanes as a starting substance.

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Alkylation of Nonacidic C(sp³)–H Bonds by Photoinduced Catalytic Michael-Type Radical Addition

Kamijo

Takao

Kamijo

et al. 2016

Org. Lett.

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Photoinduced catalytic Michael-type radical addition was achieved via olefin insertion into a nonacidic C(sp)-H bond, utilizing 2-chloroanthraquinone as a C-H bond-cleaving catalyst and 1,1-bis(phenylsulfonyl)ethylene as an olefinic substrate. The present radical protocol allows carbon chain extension stemming from nonacidic C-H bonds, which complements alkylation at acidic C-H bonds under ionic conditions and installs the active methine site that acts as a versatile synthetic handle for further transformations.

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Imidazopyridine derivatives as potent and selective Polo-like kinase (PLK) inhibitors

Satō

Onozaki

Sugimoto

et al. 2009

Bioorganic & Medicinal Chemistry Letters

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Synthesis of Aliphatic Azides by Photoinduced C(sp3)–H Azidation

et al. 2015

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A photoinduced synthesis of aliphatic azides was achieved in a single step starting from the parent cyclic alkanes, as well as from tetrahydrofuran and pyrrolidine derivatives. The reaction proceeds via direct azidation of C(sp 3)-H bonds in the presence of 4-benzoylpyridine under photoirradiation conditions utilizing tosyl azide as the azide source. The chemoselective C-H mono-azidation at room temperature and the formation of azide compounds in spite of their potential photolability are the key features of the present transformation.

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Aryl Ketone Mediated Photoinduced Radical Coupling for the Alkylation of Benzazoles Employing Saturated Heterocyclic Compounds

Kamijo

Kamijo²,

Murafuji³

2019

Synthesis

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An aryl ketone mediated synthesis of 2-alkylated benzazoles was achieved via radical coupling under photoirradiation starting from saturated heterocycles and 2-sulfonylated benzazoles, such as benzothiazoles, benzoxazole, and benzimidazole. Heterocyclic compounds, including a cyclic ether, azacycles, and tetrahydrothiophene, were applicable, and the benzazole unit was site-selectively installed at the carbon center proximal to the heteroatom. The present transformation takes place at ambient temperature under neutral reaction conditions without the aid of any metallic catalysts or reagents.

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Kaori Kamijo

Aryl Ketone Catalyzed Radical Allylation of C(sp³)–H Bonds under Photoirradiation

Alkylation of Nonacidic C(sp³)–H Bonds by Photoinduced Catalytic Michael-Type Radical Addition

Imidazopyridine derivatives as potent and selective Polo-like kinase (PLK) inhibitors

Synthesis of Aliphatic Azides by Photoinduced C(sp3)–H Azidation

Aryl Ketone Mediated Photoinduced Radical Coupling for the Alkylation of Benzazoles Employing Saturated Heterocyclic Compounds

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Kaori Kamijo

Aryl Ketone Catalyzed Radical Allylation of C(sp3)–H Bonds under Photoirradiation

Alkylation of Nonacidic C(sp3)–H Bonds by Photoinduced Catalytic Michael-Type Radical Addition

Imidazopyridine derivatives as potent and selective Polo-like kinase (PLK) inhibitors

Synthesis of Aliphatic Azides by Photoinduced C(sp3)–H Azidation

Aryl Ketone Mediated Photoinduced Radical Coupling for the Alkylation­ of Benzazoles Employing Saturated Heterocyclic Compounds­

Contact Info

Product

Resources

About

Aryl Ketone Catalyzed Radical Allylation of C(sp³)–H Bonds under Photoirradiation

Alkylation of Nonacidic C(sp³)–H Bonds by Photoinduced Catalytic Michael-Type Radical Addition

Aryl Ketone Mediated Photoinduced Radical Coupling for the Alkylation of Benzazoles Employing Saturated Heterocyclic Compounds