2024
DOI: 10.1021/acs.joc.3c02872
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Synthesis of Phenol–Pyridinium Salts Enabled by Tandem Electron Donor–Acceptor Complexation and Iridium Photocatalysis

Matthew C. Carson,
Cindy R. Liu,
Marisa C. Kozlowski

Abstract: Herein, we describe a dual photocatalytic system to synthesize phenol−pyridinium salts using visible light. Utilizing both electron donor−acceptor (EDA) complex and iridium(III) photocatalytic cycles, the C−N cross-coupling of unprotected phenols and pyridines proceeds in the presence of oxygen to furnish pyridinium salts. Photocatalytic generation of phenoxyl radical cations also enabled a nucleophilic aromatic substitution (S N Ar) of a fluorophenol with an electron-poor pyridine. Spectroscopic experiments w… Show more

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Cited by 5 publications
(4 citation statements)
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“…Pyr1 was strategically selected to fulfill the criteria discussed above. Namely, pyridines bearing C2 substituents were unreactive as nucleophiles in our pyridination work . The CF 3 group ensures that pyr1 is a good acceptor for the phenols while not being too electron-poor as to be deactivated by direct reduction with the photocatalyst or to preclude protonation.…”
Section: Resultsmentioning
confidence: 94%
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“…Pyr1 was strategically selected to fulfill the criteria discussed above. Namely, pyridines bearing C2 substituents were unreactive as nucleophiles in our pyridination work . The CF 3 group ensures that pyr1 is a good acceptor for the phenols while not being too electron-poor as to be deactivated by direct reduction with the photocatalyst or to preclude protonation.…”
Section: Resultsmentioning
confidence: 94%
“…Using our prior pyridination conditions, the initial reaction discovery focused on the coupling of 2,4-dimethoxyphenol ( 1a ) and pyrazole ( 2a ) using Ir(ppy) 3 in HFIP (Scheme ). Our efforts started here as the Nicewicz reaction conditions with this phenol using acridinium photocatalyst di t -BuMesAcrBF 4 yielded no product .…”
Section: Resultsmentioning
confidence: 99%
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