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- 2022 | Chem. Eur. J. | Photochemical Deracemization of a Medicinally-Relevant Benzopyran using an Oscillatory Flow Reactor
- 2021 | Green Chem. | Continuous flow heterogeneous catalytic reductive aminations under aqueous micellar conditions
- 2021 | Green Chem. | Continuous Flow Processing of Bismuth-Photocatalyzed Atom Transfer Radical Addition Reactions Using an
- 2020 | Org. Process Res. Dev. | Optimization of a Decatungstate-Catalyzed C(Sp 3 )–H Alkylation Using a Continuous Oscillatory
- 2020 | Org. Process Res. Dev. | Ir/Ni Photoredox Dual Catalysis with Heterogeneous Base Enabled by an Oscillatory Plug Flow
- 2020 | React. Chem. Eng. | An Oscillatory Plug Flow Photoreactor Facilitates Semi-Heterogeneous Dual Nickel/Carbon Nitride
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Continuous flow heterogeneous catalytic reductive aminations under aqueous micellar conditions enabled by an oscillatory plug flow reactor
Despite the fact that continuous flow processing exhibits well-established technical advances, aqueous micellar chemistry, a field that has proven extremely useful in shifting organic synthesis to sustainable water-based media, has mostly been explored under conventional batch-based conditions. This is particularly because of the fact that the reliable handling of slurries and suspensions in flow has been considered as a significant technical challenge. Herein, we demonstrate that the strategic application of an oscillatory plug flow reactor enables heterogeneous catalytic reductive aminations in aqueous micellar media enhancing mass transport and facilitating process simplicity, stability and scalability. The micellar flow process enabled a broad range of substrates, including amino acid derivatives, to be successfully transformed under reasonably mild conditions utilizing only very low amounts of Pd/C as a readily available heterogeneous catalyst. The preparative capabilities of the process along with the recyclability of the heterogenous catalyst and the aqueous reaction media were also demonstrated.
Wernik, M.; Sipos, G.; Buchholcz, B.; Darvas, F.; Novák, Z.; Ötvös, S.; Kappe, C. O. Green Chem., 2021, 23, 5625-5632