Highly active, selective and stable titania-based catalytic materials have been designed through a simple and environmentally friendly microwave-assisted approach. Further modification of the prepared titania with metal nanoparticles was carried out by a simple chemical reduction method. The synthesized materials displayed excellent catalytic behaviour in the reductive amination of furfural towards furfuryl amine. More importantly, the materials showed remarkable recyclability, retaining high conversion and selectivity values after six reaction cycles.
Efficient and stable titania-based nanocatalytic materials for the reductive amination of furfural
Rodriguez-Padron D.
2022
Abstract
Highly active, selective and stable titania-based catalytic materials have been designed through a simple and environmentally friendly microwave-assisted approach. Further modification of the prepared titania with metal nanoparticles was carried out by a simple chemical reduction method. The synthesized materials displayed excellent catalytic behaviour in the reductive amination of furfural towards furfuryl amine. More importantly, the materials showed remarkable recyclability, retaining high conversion and selectivity values after six reaction cycles.
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