Direct Deaminative Functionalization

Selective functional group interconversions in complex molecular settings underpin many of the challenges facing modern organic synthesis. Currently, a privileged subset of functional groups dominates this landscape, while others, despite their abundance, are sorely underdeveloped. Amines epitomize...

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Bibliographic Details
Published in:Journal of the American Chemical Society Vol. 145; no. 1; pp. 17 - 24
Main Authors: Dherange, Balu D., Yuan, Mingbin, Kelly, Christopher B., Reiher, Christopher A., Grosanu, Cristina, Berger, Kathleen J., Gutierrez, Osvaldo, Levin, Mark D.
Format: Journal Article
Language:English
Published: United States American Chemical Society 11-01-2023
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Summary:Selective functional group interconversions in complex molecular settings underpin many of the challenges facing modern organic synthesis. Currently, a privileged subset of functional groups dominates this landscape, while others, despite their abundance, are sorely underdeveloped. Amines epitomize this dichotomy; they are abundant but otherwise intransigent toward direct interconversion. Here, we report an approach that enables the direct conversion of amines to bromides, chlorides, iodides, phosphates, thioethers, and alcohols, the heart of which is a deaminative carbon-centered radical formation process using an anomeric amide reagent. Experimental and computational mechanistic studies demonstrate that successful deaminative functionalization relies not only on outcompeting the H-atom transfer to the incipient radical but also on the generation of polarity-matched, productive chain-carrying radicals that continue to react efficiently. The overall implications of this technology for interconverting amine libraries were evaluated via high-throughput parallel synthesis and applied in the development of one-pot diversification protocols.
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ISSN:0002-7863
1520-5126
DOI:10.1021/jacs.2c11453