Dry (CO 2) reforming of methane (DRM) for syngas production, a critical feedstock for the
production of hydrogen, ammonia, and Fischer-Tropsch derived liquid energy carriers …

This paper reports advances on the preparation of stable Ni-based catalysts for DRM
reaction using various supports, promoters, synthesis methods, and pre-treatment …

Integrated carbon capture and utilization by methanation (ICCU-methanation) is an
emerging concept in reducing CO 2 emissions and storing H 2 simultaneously. One key of …

The dry reforming of methane (DRM) reaction, which converts two greenhouse gases, CO2
and CH4, into valuable syngas, offers a promising route to carbon sequestration. Ni-based …

The escalating levels of atmospheric carbon dioxide (CO 2) and methane in recent decades
have generated significant interest among researchers worldwide to identify expeditious …

Dry reforming of methane (DRM) involves the conversion of carbon dioxide (CO 2) and
methane (CH 4) into syngas (a mixture of hydrogen, H 2, and carbon monoxide, CO), which …

Decarbonization of the energy sector is a topic of paramount importance to avoid irreversible
global warming. Hydrogen has been considered as the most suitable option to replace fossil …

CO 2 capture and utilization has been considered as an up-and-coming short-to mid-term
approach to mitigate the excessive CO 2 emission. Comparing to the conventional separate …

Natural gas pyrolysis to produce carbon and hydrogen, known as “turquoise hydrogen,
using molten metals and salts is a promising route to clean hydrogen production. Methane …

CO 2 conversion to produce syngas via reforming of CH 4 and electrochemical reduction
reaction is attractive to achieve carbon neutralization, mitigate CO 2 related environmental …