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From Batch to Flow: Immobilized Photoredox Systems for Scalable Continuous Processes
Rok: 2025
Druh publikace: ostatní - přednáška nebo poster
Strana od-do: nestránkováno
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Jazyk Název Abstrakt Klíčová slova
eng From Batch to Flow: Immobilized Photoredox Systems for Scalable Continuous Processes Photoredox catalysis utilizing visible light has emerged as a highly popular and versatile tool across organic synthesis. However, the homogeneous photoredox protocols developed to date significantly hinders an efficient recovery and reuse of photocatalysts, resulting in substantial environmental and economic burdens. In this respect, immobilization strategies attract increasing attention, primarily due to the enhanced recyclability of the catalysts and their perspective embedding into flow reactors. In our recent study, we reveal that dicyanopyrazine-based organic photocatalyst (DPZ), originally developed by our research group in 2014, undergoes a Mallory-type photocyclization to afford 6,9 dimethoxydithieno[2,3 f:3',2' h]quinoxaline-2,3-dicarbonitrile (DTQ). Herein, we present DTQ’s further structural modifications towards its straightforward immobilization to iDTQ via co polymerization strategy. Catalytic efficiency of both DTQ and iDTQ in homogeneous and heterogeneous photoredox processes under batch and continuous-flow conditions were investigated. dicyanopyrazine; photocatalyst; photoredox catalysis; immobilization

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