4.8 Article

{2-Phases 2-reactions 1-catalyst} concept for the sustainable performance of coupled reactions

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GREEN CHEMISTRY
卷 24, 期 6, 页码 2516-2526

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ROYAL SOC CHEMISTRY
DOI: 10.1039/d1gc04265c

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In recent years, photoredox chemistry has been extensively studied for its sustainability and low energy consumption. This study introduces a concept called {2-phases 2-reactions 1-catalyst}, which allows two chemical reactions to be performed simultaneously with only one catalyst in a liquid-liquid biphasic system. The concept demonstrates a powerful and sustainable approach to coupling diverse photo-oxidation/reduction reactions, with the advantage of using one reactor and one catalyst.
In recent years, photoredox chemistry has been intensively investigated due to its sustainability and low energy-cost. Here, we propose a physicochemical concept - called {2-phases 2-reactions 1-catalyst} - to perform two chemical reactions simultaneously with only one catalyst using a liquid-liquid biphasic system. The well-known and commercially available alpha-Keggin polyoxometalate (POM), PW12O403-, was used as a photocatalyst for oxidizing a hydrophobic compound in an organic phase. The reduced POM, PW12O404-, being more hydrophilic, diffuses then in the aqueous phase where it reduces a hydrophilic compound. After this step, the re-oxidized POM migrates back to the organic phase closing the catalytic cycle. We applied this concept to several basic reactions: oxidations of organic compounds (e.g. alcohol to aldehyde), degradation of organic dyes, metal recovery by reduction of metal ions, and in situ metal-organic complexation reactions. This concept is proposed as a powerful, simple and sustainable tool to couple diverse photo-oxidation/reduction reactions. As an example, oxidative dye degradation/metal (silver) recovery were performed using this general methodology. The main advantage of the {2-phases 2-reactions 1-catalyst} concept is the economy of one reactor and one catalyst, including its self-regeneration by another useful reaction.

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