Dr Russell Taylor's Outputs (2)

Tandem Reduction–Reoxidation Augments the Catalytic Activity of Sn-Beta Zeolites by Redispersion and Respeciation of SnO2 Clusters (2021)
Journal Article
Peeters, E., Khalil, I., Eloy, P., Calderon-Ardila, S., Dijkmans, J., Ferrini, P., Debecker, D. P., Taylor, R. A., Douvalis, A. P., Dusselier, M., & Sels, B. F. (2021). Tandem Reduction–Reoxidation Augments the Catalytic Activity of Sn-Beta Zeolites by Redispersion and Respeciation of SnO2 Clusters. Chemistry of Materials, 33(23), 9366-9381. https://doi.org/10.1021/acs.chemmater.1c03265

High dispersion of Sn in beta (β) zeolites is pivotal to obtain highly active Snβ catalysts with high productivity. However, at higher Sn loadings, Sn dispersion and the activity per Sn decrease. The present work highlights the augmentation of cataly... Read More about Tandem Reduction–Reoxidation Augments the Catalytic Activity of Sn-Beta Zeolites by Redispersion and Respeciation of SnO2 Clusters.

Zinc Oxide-Modified Mordenite as an Effective Catalyst for the Dehydrogenation of (bio)Ethanol to Acetaldehyde (2021)
Journal Article
Raynes, S. J., & Taylor, R. A. (2021). Zinc Oxide-Modified Mordenite as an Effective Catalyst for the Dehydrogenation of (bio)Ethanol to Acetaldehyde. Sustainable Energy & Fuels, 5(7), 2136-2148. https://doi.org/10.1039/d1se00091h

The direct transformation of ethanol to acetaldehyde is an important step in the cascade conversion of bioethanol to higher value chemicals and for the development of sustainable fuels. Herein, zinc oxide supported on alkali cation-exchanged mordenit... Read More about Zinc Oxide-Modified Mordenite as an Effective Catalyst for the Dehydrogenation of (bio)Ethanol to Acetaldehyde.