Switchable Catalytic Polyoxometalate-Based Systems for Biomass Conversion to Carboxylic Acids
Voß D, Dietrich R, Stuckart M, Albert J (2020)
Publication Type: Journal article
Publication year: 2020
Journal
Abstract
We present the Keggin-type polyoxometalate H6[PV3Mo9O40] as a switchable catalyst being able to catalyze the transformation of both glucose and glyceraldehyde to formic acid (42%) and lactic acid (40%), respectively, within 1 h reaction time by simply changing the reaction atmosphere at 160 °C from oxygen to nitrogen in one reactor setup. In detail, we report the influence of different gas atmospheres and reaction temperatures on various vanadium-containing catalysts in the selective transformation of several biogenic substrates to carboxylic acids with a special emphasis on reaction pathways and switchability of the catalyst systems. All investigations were carried out in parallel using either an oxygen or a nitrogen atmosphere of 20 bar performing time-resolved experiments between 0.25 and 5 h and a temperature variation from 160 to 200 °C. Furthermore, a catalyst and a substrate variation led to the reaction system consisting of glyceraldehyde and the Keggin-type polyoxometalates (POM) H6[PV3Mo9O40] as the best switchable reaction system under the applied conditions. This study shows interesting potential for using both Keggin-type and Lindqvist-type POMs as switchable catalysts for selective biomass conversion to platform chemicals.
Authors with CRIS profile
Dorothea Voß
Lehrstuhl für Chemische Reaktionstechnik
Maria Stuckart
Lehrstuhl für Chemische Reaktionstechnik
Jakob Albert
Lehrstuhl für Chemische Reaktionstechnik
Involved external institutions
Germany (DE)How to cite
APA:
Voß, D., Dietrich, R., Stuckart, M., & Albert, J. (2020). Switchable Catalytic Polyoxometalate-Based Systems for Biomass Conversion to Carboxylic Acids. ACS Omega. https://dx.doi.org/10.1021/acsomega.0c02430
MLA:
Voß, Dorothea, et al. "Switchable Catalytic Polyoxometalate-Based Systems for Biomass Conversion to Carboxylic Acids." ACS Omega (2020).
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