Methane, mainly derived from fossil fuels, coal and natural gas, is a widely used industrial
resource for hydrogen production via the reforming process. However, due to their …

With the demand for anticipated green hydrogen and power production, novel and upgraded
catalytic processes are desired for more effective utilization of precious natural resources …

In the thermo-catalytic hydrogen production from methane, catalyst deactivation is a major
issue for the industrial applications. In this review, six modification strategies to achieve a …

Dry reforming of methane (DRM) reaction has drawn much interest due to the reduction of
greenhouse gases and production of syngas. Coking and sintering have hindered the large …

Various feedstocks such as natural gas, glycerol, biomass, methanol, ethane, and other
hydrocarbons can be reformed to generate hydrogen as a viable alternative source of …

Nickel-based catalysts are widely used in dry reforming of methane (DRM) due to good
catalytic activity and low industrial cost. However, carbon deposition hinders the large-scale …

The development of novel and effective methods for the activation of methane is fascinating,
which offers a promising potential for the sustainable development of chemical industry and …

To better understand the metal-support interaction and structure–activity relationship, we
computed the mechanisms of CO 2 hydrogenation to CH 4 and CH 3 OH on ZrO 2 supported …

To tune the activity and selectivity of CO 2 hydrogenation, inverse supported Zr 9 O 18/Ni (1
1 1) catalysts are designed based on ab initio molecular dynamics simulation and density …

The efficient activation of methane and the simultaneous water dissociation are crucial in
many catalytic reactions on oxide-supported transition metal catalysts. On very low-loaded …