Mechanistic insights into copper-catalyzed aerobic oxidative coupling of N–N bonds
Literature Information
Publication Date
2019-12-10
DOI
10.1039/C9SC04305E
Impact Factor
9.825
Authors
Michael C. Ryan, Yeon Jung Kim, James B. Gerken, Fei Wang, Michael M. Aristov, Joseph R. Martinelli, Shannon S. Stahl
View Original
Abstract
Catalytic N–N coupling is a valuable transformation for chemical synthesis and energy conversion. Here, mechanistic studies are presented for two related copper-catalyzed oxidative aerobic N–N coupling reactions, one involving the synthesis of a pharmaceutically relevant triazole and the other relevant to the oxidative conversion of ammonia to hydrazine. Analysis of catalytic and stoichiometric N–N coupling reactions support an “oxidase”-type catalytic mechanism with two redox half-reactions: (1) aerobic oxidation of a CuI catalyst and (2) CuII-promoted N–N coupling. Both reactions feature turnover-limiting oxidation of CuI by O2, and this step is inhibited by the N–H substrate(s). The results highlight the unexpected facility of the N–N coupling step and establish a foundation for development of improved catalysts for these transformations.
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Source Journal
Chemical Science
CiteScore:
14.4
Self-citation Rate:
3.9%
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1413
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Recommended Compounds
![(1S)-1,5-Anhydro-1-[3-(1-benzothiophen-2-ylmethyl)-4-fluorophenyl]-D-glucitol structure](https://static.chemtradehub.com/structs/761/761423-87-4-dbeb.webp "(1S)-1,5-Anhydro-1-[3-(1-benzothiophen-2-ylmethyl)-4-fluorophenyl]-D-glucitol structure")
(1S)-1,5-Anhydro-1-[3-(1-benzothiophen-2-ylmethyl)-4-fluorophenyl]-D-glucitol
CAS Number:
761423-87-4
Molecular Formula:
C21H21FO5S
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