Ethylene glycol (EG) is an important organic compound and chemical intermediate used in a
large number of industrial processes (eg energy, plastics, automobiles, and chemicals) …

Owing to the considerable publicity that has been given to petroleum related economic,
environmental, and political problems, renewed attention has been focused on the …

This Review describes recent advances in the design, synthesis, reactivity, selectivity,
structural, and electronic properties of the catalysts for reforming of a variety of oxygenates …

Hydrogen production from ethanol is regarded as a promising way for energy sustainable
development, which is undergoing an explosive growth over the last decade. Besides …

This paper describes the synthesis of CeO 2-promoted Ni/SBA-15 catalysts (denoted as
CeNi/SBA-15) via a surfactant-assisted iso-volumetric impregnation method and their …

Hydrogen demand is vigorously increasing due to its significant role in energy sources and
chemical reactants. Catalytic steam reforming for hydrogen production is considered as one …

Steam reforming (SR) of fossil methane is already a well-known, documented and
established expertise in the industrial sector as it accounts for the vast majority of the global …

A series of mesoporous Fe x Ce 1− x O 2− δ catalysts with high surface area were prepared
by a surfactant-assisted method. Thorough characterization of spectroscopic and theoretical …

This paper describes the design of Ni/SiO2 catalysts obtained from a phyllosilicate precursor
that possess high activity and stability for bioethanol steam reforming to sustainably produce …

Steam reforming of bio-ethanol is one of the most promising methods to produce renewable
hydrogen and reduce carbon footprint. Nickel and magnesium are two main elements in …