Biaryl scaffolds are widely spread in biologically important natural products, in numerous therapeutic agents, but they are also considered a privileged class of ligands and (organo)catalysts; therefore, the development of efficient alternative methodologies to prepare such compounds is always attracting much attention. The present review discusses the organic electrosynthesis of biaryls starting from phenols, anilines, naphthols, and naphthylamines. The most significant examples of the works reported in the last decade are presented and classified according to the single class of molecules: after the introduction, the first three sections relate to the reactions of phenols, naphthols, and anilines, respectively; the other two sections refer to cross-coupling and miscellaneous reactions.
Electrochemical organic synthesis of electron-rich biaryl scaffolds: An update / F. Medici, S. Resta, A. Puglisi, S. Rossi, L. Raimondi, M. Benaglia. - In: MOLECULES. - ISSN 1420-3049. - 26:22(2021), pp. 6968.1-6968.19. [10.3390/molecules26226968]
Electrochemical organic synthesis of electron-rich biaryl scaffolds: An update
F. Medici
Primo
;S. RestaSecondo
;A. Puglisi;S. Rossi;L. RaimondiPenultimo
;M. Benaglia
Ultimo
2021
Abstract
Biaryl scaffolds are widely spread in biologically important natural products, in numerous therapeutic agents, but they are also considered a privileged class of ligands and (organo)catalysts; therefore, the development of efficient alternative methodologies to prepare such compounds is always attracting much attention. The present review discusses the organic electrosynthesis of biaryls starting from phenols, anilines, naphthols, and naphthylamines. The most significant examples of the works reported in the last decade are presented and classified according to the single class of molecules: after the introduction, the first three sections relate to the reactions of phenols, naphthols, and anilines, respectively; the other two sections refer to cross-coupling and miscellaneous reactions.
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