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Herein we report a Ni-photoredox catalytic methodology for the synthesis of C-aryl glycosides via arylation of monosaccharides unprotected at the anomeric position. In our work, the iridium complex previously employed as photocatalyst in this kind of Ni-photoredox arylation of alcohols was replaced by 5CzBN – a readily available donor-acceptor cyanoarene photocatalyst. Six benzyl protected monosaccharides showed moderate to good reactivity and, in most cases, an excellent selectivity for the α-C-aryl glycoside product (α/β ≥ 10:1). Electron-rich and electron-poor aryl bromides were found equally suitable for the reaction, affording the corresponding products with comparable yields. Stern–Volmer experiments and yield trends are supportive of a mechanism involving reductive quenching of the photocatalyst with a sugar-NHC adduct, generating a glycosyl radical which then enters a Ni-catalytic cycle.

Synthesis of α‐Arylglycosides by Ni‐Photoredox Arylation of Sugars with an Organic Photocatalyst / G. Cavazzoli, I. Gamberoni, S. Mazzotta, A. Bossi, M. Penconi, A. Bernardi, L. Pignataro. - In: CHEMCATCHEM. - ISSN 1867-3880. - 17:10(2025 May 22), pp. e202500042.1-e202500042.6. [Epub ahead of print] [10.1002/cctc.202500042]

Synthesis of α‐Arylglycosides by Ni‐Photoredox Arylation of Sugars with an Organic Photocatalyst

G. Cavazzoli
Primo
;I. Gamberoni
Secondo
;S. Mazzotta;A. Bossi;A. Bernardi
Penultimo
;L. Pignataro
Ultimo
2025

Abstract

Herein we report a Ni-photoredox catalytic methodology for the synthesis of C-aryl glycosides via arylation of monosaccharides unprotected at the anomeric position. In our work, the iridium complex previously employed as photocatalyst in this kind of Ni-photoredox arylation of alcohols was replaced by 5CzBN – a readily available donor-acceptor cyanoarene photocatalyst. Six benzyl protected monosaccharides showed moderate to good reactivity and, in most cases, an excellent selectivity for the α-C-aryl glycoside product (α/β ≥ 10:1). Electron-rich and electron-poor aryl bromides were found equally suitable for the reaction, affording the corresponding products with comparable yields. Stern–Volmer experiments and yield trends are supportive of a mechanism involving reductive quenching of the photocatalyst with a sugar-NHC adduct, generating a glycosyl radical which then enters a Ni-catalytic cycle.
Bifunctional catalysis; Cross-coupling; Donor-acceptor cyanoarenes; Metallaphotoredox catalysis; Visible light;
Settore CHEM-05/A - Chimica organica
   MUSA - Multilayered Urban Sustainability Actiona
   MUSA
   MINISTERO DELL'UNIVERSITA' E DELLA RICERCA

   Piano di Sostegno alla Ricerca 2015-2017 - Linea 2 "Dotazione annuale per attività istituzionali" (anno 2022)
   UNIVERSITA' DEGLI STUDI DI MILANO
22-mag-2025
14-mar-2025
CHEMCATCHEM
https://chemistry-europe.onlinelibrary.wiley.com/doi/10.1002/cctc.202500042
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2434/1165762
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