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Synlett
DOI: 10.1055/a-2746-2320
Letter

Transition-Metal Free Chemoselective C(sp3)-S Cross-Coupling/Cyclization Cascade: Reagent-Controlled Divergent Synthesis of Methylene-Functionalized Thiazolidines and 1,3-Thiazinanes

Autoren

  • Vipin Kumar

    1   Chemistry, Banaras Hindu University Faculty of Science, Varanasi, India (Ringgold ID: RIN163931)

  • Anup Kumar Yadav

    1   Chemistry, Banaras Hindu University Faculty of Science, Varanasi, India (Ringgold ID: RIN163931)

  • Saurabh Singh

    1   Chemistry, Banaras Hindu University Faculty of Science, Varanasi, India (Ringgold ID: RIN163931)

  • Maya Shankar Singh

    1   Chemistry, Banaras Hindu University Faculty of Science, Varanasi, India (Ringgold ID: RIN163931)

Gefördert durch: Anusandhan National Research Foundation CRG/2023/000021
Gefördert durch: IoE 6031
Gefördert durch: JC Bose National Fellowship JCB/2020/000023
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A highly chemoselective consecutive cross-coupling/cyclization cascade of β-ketothioamides with dihaloalkanes has been achieved under transition-metal free condition, enabling the formation of methylene-functionalized thiazolidines and 1,3-thiazinanes at room temperature in open air in high yields. The typical features of this straightforward sustainable approach include readily accessible starting materials, simple one-pot operation, atom-/step-economy, cost-effective, good substrate scope, and scalability. Noteworthy, HX is the only by-product, and stereochemistry of the exocyclic methylene moiety was assigned to have Z-configuration. Late-stage functionalization could provide new opportunities for the discovery of N, S-heterocyclic drugs, and other potential functional molecules.



Publikationsverlauf

Eingereicht: 30. September 2025

Angenommen nach Revision: 12. November 2025

Accepted Manuscript online:
12. November 2025

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