Photooxidation of organosulfur compounds catalyzed by iodo-bodipy derivatives under visible light irradiation

Abstract

In this work, iodo-BODIPY derivatives, I-GB, 3I-GB, I-RB, were synthesized and used as photocatalysts for oxidation of organosulfurs such as thiols and thioethers into the corresponding disulfides and sulfoxides, respectively, as well as compared with benchmark photocatalyst, rose bengal. All BODIPY derivatives were successfully synthesized in good yields (36-80%) via condensation reaction between 4-iodobenzaldehyde and corresponding pyrroles, followed by oxidation with DDQ and complexation with BF3.OEt2. Among all synthesized BODIPYs, 3I-GB and 3I-RB showed relatively low quantum yield (0.053-0.054) with high singlet oxygen generation efficiency under green LED suggesting that both of them could serve as good photocatalysts for sulfur oxidation in visible light. In case of 4-chlorothiophenol (7) oxidation, 3I-GB and 3I-RB catalysts drove the reaction completely within 6 hours (92-100%), while other catalysts provided only 4-56% under the same condition irradiating by green LED. Moreover, 3I-GB and 3I-RB can be used as excellent photocatalysts in oxidation of others thiol substrates such as heterocyclic (11, 13), aromatic (7, 9), and benzylic (13) thiols giving the desired disulfides in 79%-quantitative yields. For the oxidation of thioanisole (19), 3I-GB and 3I-RB demonstrated higher catalytic activity comparing to I-GB, I-RB, and rose bengal providing sulfoxide (20) around 80% under green LED irradiation for 24 hours. Unfortunately, other unreactive thioethers such as heterocyclic and aliphatic substrates, were unable to oxidize using our catalysts. For mechanism of sulfur oxidation catalyzed by photocatalysts, we proposed that when BODIPYs is used as catalysts, the reaction proceeds through energy transfer and singlet oxygen is produced during the catalytic circle while the electron transfer process involves in the photooxidation catalyzed by rose bengal.

.