AI Article Synopsis
- The researchers have developed a new coupling reaction that combines P(O)-H compounds with azides using photoredox and copper catalysis, creating phosphinamides, phosphonamides, and phosphoramides.
- This method is versatile as it works with various nucleophiles like alcohols and amines, addressing a limitation of traditional nitrogen nucleophilic substitutions.
- The study showcases the potential of this approach through late-stage modifications of azido-containing natural products and drugs, early-stage asymmetric reactions, and a continuous photoflow process using visible light.
Article Abstract
We report a redox-neutral P(O)-N coupling reaction of P(O)-H compounds with azides via photoredox and copper catalysis, providing new access to useful phosphinamides, phosphonamides, and phosphoramides. This transformation tolerates a wide range of nucleophilic functionalities including alcohol and amine nucleophiles, which makes up for the deficiency of classical nitrogen nucleophilic substitution reactions. As a demonstration of the broad potential applications of this new methodology, late-stage functionalization of a diverse array of azido-bearing natural products and drug molecules, a preliminary asymmetric reaction, and a continuous visible-light photoflow process have been developed.
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| http://dx.doi.org/10.1021/acs.orglett.0c02207 | DOI Listing |
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