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Light‐Driven C−H Oxygenation of Methane into Methanol and Formic Acid by Molecular Oxygen Using a Perfluorinated Solvent
Author(s) -
Ohkubo Kei,
Hirose Kensaku
Publication year - 2018
Publication title -
angewandte chemie
Language(s) - English
Resource type - Journals
eISSN - 1521-3757
pISSN - 0044-8249
DOI - 10.1002/ange.201710945
Subject(s) - chemistry , formic acid , methanol , photochemistry , methane , oxidizing agent , acetic acid , solvent , oxygen , chlorine dioxide , methyl radical , inorganic chemistry , organic chemistry , radical
The chlorine dioxide radical (ClO 2 . ) was found to act as an efficient oxidizing agent in the aerobic oxygenation of methane to methanol and formic acid under photoirradiation. Photochemical oxygenation of methane occurred in a two‐phase system comprising perfluorohexane and water under ambient conditions (298 K, 1 atm). The yields of methanol and formic acid were 14 and 85 %, respectively, with a methane conversion of 99 % without formation of the further oxygenated products such as CO 2 and CO. Ethane was also photochemically converted into ethanol (19 %) and acetic acid (80 %). The methane oxygenation is initiated by the photochemical Cl−O bond cleavage of ClO 2 . to generate Cl . and O 2 . The produced Cl . reacts with CH 4 to form a methyl radical (CH 3 . ). Finally, the oxygenated products such as methanol and formic acid were given by the radical chain reaction. A fluorous solvent plays an important role of inhibiting the deactivation of reactive radical species such as Cl . and CH 3 . .