4.8 Review

Chemical versatility of azide radical: journey from a transient species to synthetic accessibility in organic transformations

期刊

CHEMICAL SOCIETY REVIEWS
卷 51, 期 6, 页码 2255-2312

出版社

ROYAL SOC CHEMISTRY
DOI: 10.1039/d1cs00494h

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资金

  1. DST SERB [EMR/2016/005885, DIA/2018/000019]
  2. CSIR [02(367)/19/EMR-II]
  3. UGC

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This review investigates the history, structural properties, chemical reactivities and kinetics, methods of generation, and applications of azide radicals in functionalization with unsaturated bonds. The significance of azide radicals in synthesis, drug discovery, biological, and material sciences is highlighted, along with potential opportunities to control their reactivity.
The generation of azide radical (N-3) occurs from its precursors primarily via a single electron transfer (SET) process or homolytic cleavage by chemical methods or advanced photoredox/electrochemical methods. This in situ generated transient open-shell species has unique characteristic features that set its reactivity. In the past, the azide radical was widely used for various studies in radiation chemistry as a 1e(-) oxidant of biologically important molecules, but now it is being exploited for synthetic applications based on its addition and intermolecular hydrogen atom transfer (HAT) abilities. Due to the significant role of nitrogen-containing molecules in synthesis, drug discovery, biological, and material sciences, the direct addition onto unsaturated bonds for the simultaneous construction of C-N bond with other (C-X) bonds are indeed worth highlighting. Moreover, the ability to generate O- or C-centered radicals by N-3 via electron transfer (ET) and intermolecular HAT processes is also well documented. The purpose of controlling the reactivity of this short-lived intermediate in organic transformations drives us to survey: (i) the history of azide radical and its structural properties (thermodynamic, spectroscopic, etc.), (ii) chemical reactivities and kinetics, (iii) methods to produce N-3 from various precursors, (iv) several significant azide radical-mediated transformations in the field of functionalization with unsaturated bonds, C-H functionalization via HAT, tandem, and multicomponent reaction with a critical analysis of underlying mechanistic approaches and outcomes, (v) concept of taming the reactivity of azide radicals for potential opportunities, in this review.

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