Silver-catalyzed direct selanylation of indoles: synthesis and mechanistic insights

Elise Ane Maluf Rios; Carla M B Gomes; Gabriel L Silvério; Eduardo Q Luz; Sher Ali; Caroline da Ros Montes D'Oca; Breidi Albach; Renan B Campos; Daniel S Rampon

doi:10.1039/d2ra06813c

Silver-catalyzed direct selanylation of indoles: synthesis and mechanistic insights

RSC Adv. 2023 Jan 4;13(2):914-925. doi: 10.1039/d2ra06813c. eCollection 2023 Jan 3.

Authors

Elise Ane Maluf Rios¹, Carla M B Gomes¹, Gabriel L Silvério¹, Eduardo Q Luz¹, Sher Ali², Caroline da Ros Montes D'Oca¹, Breidi Albach³, Renan B Campos⁴, Daniel S Rampon¹

Affiliations

¹ Department of Chemistry, Laboratory of Polymers and Catalysis (LaPoCa), Federal University of Paraná - UFPR P. O. Box 19061 Curitiba PR 81531-990 Brazil danielrampon@ufpr.br.
² University of São Paulo, Faculty of Animal Science and Food Engineering Pirassununga SP Brazil.
³ Health Department, Unicesumar - The University Center of Maringá Curitiba PR 81070-190 Brazil.
⁴ Departamento Acadêmico de Química e Biologia, Universidade Tecnológica Federal do Paraná Rua Deputado Heitor de Alencar Furtado, 5000 81280-340 Curitiba Brazil.

Abstract

Herein we describe the Ag(i)-catalyzed direct selanylation of indoles with diorganoyl diselenides. The reaction gave 3-selanylindoles with high regioselectivity and also allowed direct access to 2-selanylindoles when the C3 position of the indole ring was blocked via a process similar to Plancher rearrangement. Experimental analyses and density functional theory calculations were carried out in order to picture the reaction mechanism. Among the pathways considered (via concerted metalation-deprotonation, Ag(iii), radical, and electrophilic aromatic substitution), our findings support a classic electrophilic aromatic substitution via Lewis adducts between Ag(i) and diorganoyl diselenides. The results also afforded new insights into the interactions between Ag(i) and diorganoyl diselenides.