Arylacetamides are important structural motifs found in many bioactive compound classes. Given their significance, the selective decoration of arylacetamides by transition metal-catalyzed C─H activation has attracted considerable attention. Here, we report a two-steptransition metal-free formal C─H/C─H coupling of arylacetamides with sulfoxides that proceeds via the formation and rearrangement of little-known α-amido sulfonium salts; the amide motif “catches” the sulfoxide partner prior to its delivery to the ortho-position of the aromatic ring by rearrangement of a sulfur ylide inter-mediate. The approach delivers alkylated arylacetamides bearing sulfide functional handles that can be exploited in downstream manipulations. This protocol has allowed the synthesis of a dopamine D1 receptor allosteric modulator without recourse to the use of transition metals.
Zhang, S., Lou, Y.X., Larroza, A., Joynson, B.W., Romano, C., Procter, D.J. (2025). Transition Metal-Free Formal C─H/C─H Coupling of Arylacetamides and Sulfoxides: An Interrupted Pummerer/[2,3]-sigmatropic Rearrangement Sequence. ANGEWANDTE CHEMIE. INTERNATIONAL EDITION, 64(37), 1-6 [10.1002/anie.202511703].
Transition Metal-Free Formal C─H/C─H Coupling of Arylacetamides and Sulfoxides: An Interrupted Pummerer/[2,3]-sigmatropic Rearrangement Sequence
C. Romano;
2025
Abstract
Arylacetamides are important structural motifs found in many bioactive compound classes. Given their significance, the selective decoration of arylacetamides by transition metal-catalyzed C─H activation has attracted considerable attention. Here, we report a two-steptransition metal-free formal C─H/C─H coupling of arylacetamides with sulfoxides that proceeds via the formation and rearrangement of little-known α-amido sulfonium salts; the amide motif “catches” the sulfoxide partner prior to its delivery to the ortho-position of the aromatic ring by rearrangement of a sulfur ylide inter-mediate. The approach delivers alkylated arylacetamides bearing sulfide functional handles that can be exploited in downstream manipulations. This protocol has allowed the synthesis of a dopamine D1 receptor allosteric modulator without recourse to the use of transition metals.| File | Dimensione | Formato | |
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Angew Chem Int Ed - 2025 - Zhang - Transition Metal‐Free Formal C H C H Coupling of Arylacetamides and Sulfoxides An.pdf
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