Aromatic nitrogen scanning by ipso -selective nitrene internalization
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Abstract
Nitrogen scanning in aryl fragments is a valuable aspect of the drug discovery process, but current strategies require time-intensive, parallel, bottom-up synthesis of each pyridyl isomer because of a lack of direct carbon-to-nitrogen (C-to-N) replacement reactions. We report a site-directable aryl C-to-N replacement reaction allowing unified access to various pyridine isomers through a nitrene-internalization process. In a two-step, one-pot procedure, aryl azides are first photochemically converted to 3 H -azepines, which then undergo an oxidatively triggered C2-selective cheletropic carbon extrusion through a spirocyclic azanorcaradiene intermediate to afford the pyridine products. Because the ipso carbon of…
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Authors
6Topics & keywords
Topics
Keywords
- Nitrene
- Aryl
- Chemistry
- Pyridine
- Combinatorial chemistry
- Nitrogen
- Photochemistry
- Organic chemistry
UN Sustainable Development Goals
- Clean water and sanitation
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