A series of pyrazolonate-derived superbase ionic liquids (SILs) have been developed towards efficient and stable carbon capture. High and tunable CO2 uptake capacity was achieved by producing the carbonates via O−C bond formation. The ...
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Peroxygenase‐Catalysed Sulfoxidations in Non‐Aqueous Media
ChemSusChem, März 2024, DOI. Login für Volltextzugriff.
Von Wiley-VCH zur Verfügung gestellt
Immobilised peroxygenase showed superb stability under neat reaction conditions, allowing the asymmetric sulfoxidation reaction in very high product titre with a decent E-factor.
Abstract
Chiral sulfoxides are valuable building blocks in asymmetric synthesis. However, the biocatalytic synthesis of chiral sulfoxides is still challenged by low product titres. Herein, we report the use of peroxygenase as a catalyst for asymmetric sulfoxidation under non-aqueous conditions. Upon covalent immobilisation, the peroxygenase showed stability and activity under neat reaction conditions. A large variety of sulfides was converted into chiral sulfoxides in very high product concentration with moderate to satisfactory optical purity (e. g. 626 mM of (R)-methyl phenyl sulfoxide in approx. 89 % ee in 48 h). Further polishing of the ee value via cascading methionine reductase A (MsrA) gave>99 % ee of the sulfoxide. The robustness of the enzymes and high product titer is superior to the state-of-the-art methodologies. Gram-scale synthesis has been demonstrated. Overall, we demonstrated a practical and facile catalytic method to synthesize chiral sulfoxides.
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