Open AccessPhotoinduced Arylation of Acridinium Salts: Tunable Photoredox Catalysts for C–O Bond Cleavage
Author(s) -
Yi-Xuan Cao,
Gan Zhu,
Yiqun Li,
Nolwenn Le Breton,
Christophe Gourlaouen,
Sylvie Choua,
Julien Boixel,
HenriPierre Jacquot de Rouville,
JeanFrançois Soulé
Publication year - 2022
Publication title -
journal of the american chemical society
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 7.115
H-Index - 612
eISSN - 1520-5126
pISSN - 0002-7863
DOI - 10.1021/jacs.1c12961
Subject(s) - chemistry , catalysis , bond cleavage , photochemistry , cleavage (geology) , photoredox catalysis , combinatorial chemistry , photocatalysis , organic chemistry , geotechnical engineering , fracture (geology) , engineering
A photoinduced arylation of N-substituted acridinium salts has been developed and has exhibited a high functional group tolerance (e.g., halogen, nitrile, ketone, ester, and nitro). A broad range of well-decorated C9-arylated acridinium-based catalysts with fine-tuned photophysical and photochemical properties, namely, excited-state lifetimes and redox potentials have been synthetized in a one-step procedure. These functionalized acridinium salts were later evaluated in the photoredox-catalyzed fragmentation of 1,2-diol derivatives (lignin models). Among them, 2-bromophenyl substituted N -methyl acridinium has outperformed all photoredox catalysts, including commercial Fukuzumi's catalyst, for the selective C β O-Ar bond cleavage of diol monoarylethers to afford 1,2-diols in good yields.
Accelerating Research
Robert Robinson Avenue,
Oxford Science Park, Oxford
OX4 4GP, United Kingdom
Address
John Eccles HouseRobert Robinson Avenue,
Oxford Science Park, Oxford
OX4 4GP, United Kingdom