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 …

The abrupt and massive deactivation of methane dry reforming catalysts especially Ni-based
is still a monumental impediment towards its industrialization and commercialization for …

Deciphering the relationship between the active-site structure and CO2 methanation
mechanism over Ni-based catalysts faces great challenges. Herein, different distributions of …

In recent years, CO2 reforming of methane (dry reforming of methane, DRM) has become an
attractive research area because it converts two major greenhouse gasses into syngas (CO …

Dry reforming of methane (DRM) is widely studied as one of the potential routes for syngas
production from two greenhouse gases (CH 4 & CO 2) and can reduce the net emission of …

The dry reforming reaction (DRM) had capacity to mitigate the greenhouse gases from
environment as well as to produce syngas as a chemical feedstock. Various doped metal …

The dry reforming of methane (DRM), ie, the reaction of methane and CO2 to form a
synthesis gas, converts two major greenhouse gases into a useful chemical feedstock. In …

Dry reforming of methane provides a feasible solution to reduce the greenhouse gas via
simultaneously converting CH 4 and CO 2 into useful syngas. However, conventional Ni …

Catalytic dry reforming under industrially relevant conditions of high pressures and high
temperatures poses severe challenges towards catalyst materials and process engineering …

Coking is the major bottleneck in the development of stable catalysts in thermal catalysis.
Oxygen vacancies (V o) play a vital role in realizing the in situ gasification of carbon deposits …