Furfural and 5-hydroxymethylfurfural stand out as bridges connecting biomass raw materials
to the biorefinery industry. Their reductive transformations by hydroconversion are key …

Hydrodeoxygenation (HDO) using heterogeneous catalysts has received considerable
attention as a way of converting biomass-derived oxygenates into renewable fuels and …

The atomic layer deposition (ALD) technique allows the synthesis of materials at the atomic
scale to be controlled. ALD has been adapted to design and prepare single-atom catalysts …

Atomic layer deposition (ALD) has emerged as an interesting tool for the atomically precise
design and synthesis of catalytic materials. Herein, we discuss examples in which the atomic …

Catalyst stability is one of the greatest challenges faced for the utilization of heterogeneous
catalysts in the development of biomass conversion to chemicals and fuels. As many …

Catalyst synthesis with precise control over the structure of catalytic active sites at the atomic
level is of essential importance for the scientific understanding of reaction mechanisms and …

One of the most significant challenges in the use of heterogeneous catalysts is the loss of
activity and/or selectivity with time on stream, and researchers have explored different …

Controllable carbonyl group (Cdouble bondO) hydrogenation is the key to the transformation
of furfural molecules into high-value furfuryl alcohol chemicals. Herein, a non-noble copper …

5-(Hydroxymethyl) furfural (HMF) and furfural (FF) have been identified as valuable biomass-
derived fuel precursors suitable for catalytic hydrodeoxygenation (HDO) to produce high …

Ruthenium-based supported catalysts are of great potential for CO2 methanation, while the
catalytic mechanisms remain elusive owing to the conjunction of the metal size and support …