Indirect Baeyer–Villiger Oxidation of Furfural by In Situ Formed HOBr in an Undivided Electrochemical Cell
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2026-01
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Abstract
Furfural is a promising renewable platform chemical derived from biomass. Its electrochemical conversion offers the opportunity for considerable sustainability gains, i.e., by using a combination of a renewable feedstock and renewable energy. To widen the range of products available by electrochemical conversion/derivatization, indirect electrolysis (using a redox-active mediator), is a viable way. Existing methods for indirect electrolysis of furfural have been developed for divided cells only, requiring specific membranes that increase complexity and costs. Here, we describe a convenient indirect electrochemical method of furfural oxidation in an undivided cell. In this approach, HOBr is produced in situ from bromide salt and subsequently used as an oxidant in Baeyer–Villiger-type oxidation. The initially produced product, 2(3H)-furanone, immediately hydrolyzes into succinic semialdehyde. During extraction with an organic solvent, it converts back and could be isolated from the aqueous reaction mixture in the form of 2(3H)-furanone, an unstable compound. Finally, it is isomerized into the more stable 2(5H)-furanone isomer in 48% yield. The developed method represents a simple and convenient electrochemical tool for the synthesis of a renewable furanone-based building block in an undivided cell with yields comparable to existing thermochemical methods and allows to use (renewable) electricity as a driving force.
Keywords
Baeyer–Villiger oxidation, electrochemical synthesis, furfural, reactive intermediates, synthetic methods, Environmental Chemistry, General Chemical Engineering, General Materials Science, General Energy, SDG 7 - Affordable and Clean Energy
Citation
Pirgach, D A, Sim, W Y, Miloserdov, F M, van Es, D S, Bruijnincx, P C A & Bitter, J H 2026, 'Indirect Baeyer–Villiger Oxidation of Furfural by In Situ Formed HOBr in an Undivided Electrochemical Cell', ChemSusChem, vol. 19, no. 1, e202501861. https://doi.org/10.1002/cssc.202501861