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Ru‐Catalyzed CH Functionalization of Heterocycles
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Abstract
Heterocycles are key structural motifs in a variety of organic functional compounds, which are widely used in organic chemistry, pharmaceutical sciences, optoelectronics, and material science. In recent years, direct CH bond activation/functionalization has become a promising and attractive synthetic strategy and has been widely applied to construct new CC and Cheteroatom bonds. This article focuses on recent progress in ruthenium‐catalyzed‐directed CH functionalization of heterocycles, including CH alkylation, alkenylation, and alkynylation. In addition, due to the importance and rapid progress in photocatalysis, pioneering work was also summarized in the field of photoredox CH heterocycles functionalization employing ruthenium as photocatalyst.
Title: Ru‐Catalyzed CH Functionalization of Heterocycles
Description:
Abstract
Heterocycles are key structural motifs in a variety of organic functional compounds, which are widely used in organic chemistry, pharmaceutical sciences, optoelectronics, and material science.
In recent years, direct CH bond activation/functionalization has become a promising and attractive synthetic strategy and has been widely applied to construct new CC and Cheteroatom bonds.
This article focuses on recent progress in ruthenium‐catalyzed‐directed CH functionalization of heterocycles, including CH alkylation, alkenylation, and alkynylation.
In addition, due to the importance and rapid progress in photocatalysis, pioneering work was also summarized in the field of photoredox CH heterocycles functionalization employing ruthenium as photocatalyst.
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