Electrohydrodimerization of biomass-derived furfural generates a jet fuel precursor

Despite the increasing interest in upgrading biomass-derived molecules to value-added products, the electrochemical conversion of biomass platform chemicals to highly valuable biofuels, such as jet fuel, has not yet received wide attention. Herein, we report a catalyst-free electrochemical route for...

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Bibliographic Details
Published in:Green chemistry : an international journal and green chemistry resource : GC 2020-08, Vol.22 (16), p.5395-541
Main Authors: Shang, Xiao, Yang, Yang, Sun, Yujie
Format: Article
Language:English
Subjects:
Biofuels
Biomass
carbon
Catalysts
copper
Diffusion rate
diffusivity
Electrochemistry
electrodes
Electrolysis
Electron transfer
Furfural
Green chemistry
Industrial production
Jet engine fuels
Lignocellulose
Precursors
value-added products
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Summary:Despite the increasing interest in upgrading biomass-derived molecules to value-added products, the electrochemical conversion of biomass platform chemicals to highly valuable biofuels, such as jet fuel, has not yet received wide attention. Herein, we report a catalyst-free electrochemical route for the production of a jet fuel precursor, hydrofuroin, from the electrohydrodimerization of furfural, which can be readily derived from lignocellulose and already has an industrial production of 300 000 tons per year. Detailed electrochemical studies using carbon and copper electrodes at various pH values enabled us to probe the reduction mechanism of furfural and obtain the kinetic details, such as the diffusion constant and electron transfer rate. Preparative electrolysis in a batch electrolyzer achieved a high yield of hydrofuroin (94%) with an excellent faradaic efficiency of 93%. Finally, a flow electrolyzer was employed to demonstrate the great promise of large-scale production of hydrofuroin from the electrohydrodimerization of furfural. A catalyst-free electrohydrodimerization route is developed to convert biomass-derived furfural to a jet fuel precursor, hydrofuroin, with high yield and excellent Faradaic efficiency in both batch and flow electrolyzers.
ISSN:1463-9262
1463-9270
1463-9270
DOI:10.1039/d0gc01720e