Issue 34, 2023

Synthetic exploration of electrophilic xanthylation via powerful N-xanthylphthalimides

Abstract

Organic xanthates are broadly applied as synthetic intermediates and bioactive molecules in synthetic chemistry. Electrophilic xanthylation represents a promising approach but has rarely been explored mainly due to the lack of powerful electrophilic reagents. Herein, synthetic exploration of electrophilic xanthylation via powerful N-xanthylphthalimides was investigated. This strategy might provide a new avenue to less-concerned but meaningful electrophilic xanthylation in organic synthesis. With the help of these powerful reagents, electrophilic xanthylation of a wide range of substrates including aryl/alkenyl boronic acids, β-keto esters, 2-oxindole, and alkyl amines, as well as previously inaccessible phenols (first report) was achieved under mild reaction conditions. Notably, this simple electrophilic xanthylation of alkyl amine substrates will occur in the desulfuration reaction, consistent with the previously reported methods. Similarly, xanthamide and thioxanthate groups could also be transformed into desired nucleophiles via this electrophilic reagent strategy. The broad substrate scope, excellent functional group compatibility and late-stage functionalization of bioactive or functional molecules made them very attractive as general reagents which will allow rapid incorporation of SC(S)R (R = OEt, Oalkyl, NEt2 and SEt) into the target molecules.

Graphical abstract: Synthetic exploration of electrophilic xanthylation via powerful N-xanthylphthalimides

Supplementary files

Article information

Article type
Edge Article
Submitted
23 Jun 2023
Accepted
30 Jul 2023
First published
01 Aug 2023
This article is Open Access

All publication charges for this article have been paid for by the Royal Society of Chemistry
Creative Commons BY-NC license

Chem. Sci., 2023,14, 9197-9206

Synthetic exploration of electrophilic xanthylation via powerful N-xanthylphthalimides

S. Wang, L. Yang, F. Liang, Y. Zhong, X. Liu, Q. Wang and D. Zhu, Chem. Sci., 2023, 14, 9197 DOI: 10.1039/D3SC03194B

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