Solid oxide fuel cells (SOFCs) are a rapidly emerging energy technology for a low carbon
world, providing high efficiency, potential to use carbonaceous fuels, and compatibility with …

Biodiesel as a substitute of traditional petroleum-derived liquid fuels has been put into use in
recent years. However, the first generation biodiesel (fatty acid methyl esters) with high …

A bi-functional core-shell catalyst is reported for CO 2 reforming of methane, that combines
high catalytic activity with resistance to both coke formation and deactivation by H 2 S …

High carbon-resistance Ni/Ce-AlO catalysts have been developed for dry reforming of
methane (DRM) that is attracting growing attention for chemical recycling of CO2 to …

Fuel cell and hydrogen technologies are re-gaining momentum in a number of sectors
including industrial, tertiary and residential ones. Integrated biogas fuel cell plants in …

We report for the first time results of a systematic density functional theory (DFT) study of the
water-gas shift (WGS) reaction and coke formation pathways on Ni (111) and Ni (211) …

The inexpensive and abundant material, palygorskite, was used as a promising catalyst
support to prepare Fe-Ni/Pal catalysts. Catalytic steam reforming of toluene as a biomass tar …

Catalytic reforming is a promising technology for the removal of tar from syngas. However,
due to the presence of other impurities such as H 2 S, HCl, HBr, siloxanes, alkali metals, and …

Nickel-based catalysts have been broadly studied for the steam reforming of coal/biomass
tar due to their inexpensiveness and good activity. Nevertheless, their industrial application …

Lithium–sulfur batteries have drawn much attention in advanced energy storage
development due to their high theoretical specific capacity; however, several obstacles …