Solvent-free aerobic oxidative cleavage of methyl oleate to biobased aldehydes over mechanochemically synthesized supported AgAu nanoparticles

Solvent-free aerobic oxidative cleavage of methyl oleate to biobased aldehydes over mechanochemically synthesized supported AgAu nanoparticles

The performance of mechanochemically synthesized supported bimetallic AgAu nanoalloy catalysts was evaluated in the oxidative cleavage of methyl oleate, a commonly available unsaturated bio-derived raw material. An extensive screening of supports (SiO2, C, ZrO2, Al2O3), metallic ratios (Ag:Au), reac...

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Bibliographic Details
Published in:ChemPlusChem (Weinheim, Germany) Vol. 88; no. 10; p. e202300268
Main Authors: da Silva, Rafael T P, Silva, Dagoberto O, de Oliveira, Paulo F M, Bellabarba, Ronan, Johnston, Peter, Smit, Joost, Holt, Jarle, Betham, Mike, Rossi, Liane Marcia
Format: Journal Article
Language:English
Published: Germany 01-10-2023
Subjects:
Oxidative Cleavage
Supported Catalysts
Biomass Conversion
Heterogeneous Catalysis
Biobased Aldehydes
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Summary:The performance of mechanochemically synthesized supported bimetallic AgAu nanoalloy catalysts was evaluated in the oxidative cleavage of methyl oleate, a commonly available unsaturated bio-derived raw material. An extensive screening of supports (SiO2, C, ZrO2, Al2O3), metallic ratios (Ag:Au), reaction times, temperatures, and use of solvents was carried out. The performance was optimized towards productivity and selectivity for the primary cleavage products (aldehydes and oxoesters). The optimal conditions were achieved in the absence of solvent, using Ag8Au92/SiO2 as catalyst, at 80 °C, reaction time of 1 h, substrate to catalyst = 555 and 10 bar of molecular oxygen. A strong support effect was observed: the selectivity to aldehydes was best with silica as support, and to esters was best using zirconia. This shows not only that mechanochemical preparation of bimetallic catalysts is a powerful tool to generate useful catalyst compositions, but also that a safe, green, solventless synthesis of bio-derived products can be achieved by aerobic oxidative cleavage.
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ISSN:2192-6506
2192-6506
DOI:10.1002/cplu.202300268