Accessing Multiple Classes of 2 H-Indazoles: Mechanistic Implications for the Cadogan and Davis-Beirut Reactions
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American Chemical Society
Abstract
The Cadogan cyclization is a robust but harsh method for the synthesis of 2H-indazoles, a valuable class of nitrogen heterocycles. Although nitrene generation by exhaustive deoxygenation is widely accepted as the operating mechanism in the reductive cyclization of nitroaromatics, non-nitrene pathways have only been theorized previously. Here, 2H-indazole N-oxides were synthesized through an interrupted Cadogan/Davis-Beirut reaction and are presented as direct evidence of competent oxygenated intermediates; mechanistic implications for both reactions are discussed. Isolation and characterization of these N-oxides enabled a formal Cadogan cyclization at room temperature for 2H-indazole synthesis. © 2019 American Chemical Society.
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Keywords
Cyclization, Indazoles, Molecular structure, Reaction intermediates, Indazole derivative, Deoxygenations, Isolation and characterization, Multiple class, Nitrenes, Nitro-aromatics, Nitrogen heterocycles, Operating mechanism, Reductive cyclization, Article, Chemical analysis, Chemical reaction, Chemical structure, Crystal structure, Isolation, Oxygenation, Room temperature, Synthesis, Chemistry