The solar‐energy‐driven photoreduction of CO2 has recently emerged as a promising
approach to directly transform CO2 into valuable energy sources under mild conditions. As a …

Catalytic conversion of CO2 to produce fuels and chemicals is attractive in prospect because
it provides an alternative to fossil feedstocks and the benefit of converting and cycling the …

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

Dry reforming of light hydrocarbons such as methane has gained interest due to the
consumption of greenhouse gases like methane and CO 2 and production of syngas (H 2 …

Zeolite-supported nickel (Ni) catalysts have been extensively studied for the dry reforming of
methane (DRM). It is generally believed that prior to or during the reaction, Ni is reduced to a …

Transition to low carbon societies requires advanced catalysis and reaction engineering to
pursue green routes for fuels and chemicals production as well as CO 2 conversion. This …

Large-scale carbon fixation requires high-volume chemicals production from carbon dioxide.
Dry reforming of methane could provide an economically feasible route if coke-and sintering …

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

Ni single-atom catalysts (SACs) can perform with the extremely high activity in the activation
of the CH bond, however, deactivation caused by carbon deposition became the main …

Abstract Undoubtedly, hydrogen (H 2) is a clean feedstock and energy carrier whose
sustainable production should be anticipated. The pyrolysis of biomass or waste plastics …