Enzyme-catalysed enantioselective oxidation of alcohols by air exploiting fast electrochemical nicotinamide cycling in electrode nanopores

Enzyme-catalysed enantioselective oxidation of alcohols by air exploiting fast electrochemical nicotinamide cycling in electrode nanopores

Enantioselective conversion of alcohols to ketones using air as the oxidant is achieved with high rates and efficiency using an indium tin oxide (ITO) electrode in which an alcohol dehydrogenase and a photosynthetic NADPH recycling enzyme are confined within nanopores. The massive catalytic enhancem...

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Veröffentlicht in:Green chemistry : an international journal and green chemistry resource : GC 2019, Vol.21 (18), p.4958-4963
Hauptverfasser: Wan, Lei, Heath, Rachel S, Siritanaratkul, Bhavin, Megarity, Clare F, Sills, Adam J, Thompson, Matthew P, Turner, Nicholas J, Armstrong, Fraser A
Format: Artikel
Sprache:eng
Schlagworte:
Alcohol
Alcohol dehydrogenase
Alcohols
Catalysis
Electrochemical cells
Electrochemistry
Electrodes
Enantiomers
Enzymes
Green chemistry
Indium tin oxides
Ketones
NADP
NADPH
Nicotinamide
Organic chemistry
Oxidation
Photosynthesis
Porosity
Tin
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Zusammenfassung:Enantioselective conversion of alcohols to ketones using air as the oxidant is achieved with high rates and efficiency using an indium tin oxide (ITO) electrode in which an alcohol dehydrogenase and a photosynthetic NADPH recycling enzyme are confined within nanopores. The massive catalytic enhancement arising from nanoconfinement is exploited in an air-driven electrochemical cell, which requires no complicating control features yet allows continuous monitoring of the reaction via the current that flows between anode (ITO: organic chemistry) and cathode (Pt: O 2 from air). Enantioselective conversion of alcohols to ketones using air as the oxidant is achieved with high rates and efficiency using an indium tin oxide electrode in which an alcohol dehydrogenase and a NADPH recycling enzyme are confined within nanopores.
ISSN:1463-9262
1463-9270
DOI:10.1039/c9gc01534e