Photocatalytic reduction of carbon dioxide (CO 2) presents a pivotal solution to address
meteorological and ecological challenges. Currently, metal-organic frameworks (MOFs) with …

Recently, magnetically induced catalytic CO2 hydrogenation has gained attention due to its
high energy efficiency and better heat management of exothermic processes compared to …

The supply of the heat required for chemical processes via renewable electricity, ie, process
electrification, provides an alternative strategy for replacing conventional fossil fuel …

The CO2 methanation reaction, or Sabatier reaction, is experiencing renewed interest in the
context of large‐scale recycling of point CO2 emissions, leading to the power‐to‐gas …

The catalytic activity of 3D-printed metal monoliths loaded with iron impregnated ceria-
zirconia mixed-oxide support on CO 2 conversion to methane was investigated between 300 …

Organic pollutants have become an urgent problem for human health and the ecological
system. The development of a multifunctional and efficient catalyst is of great significance for …

The paper introduces spatially stable Ni-supported bimetallic catalysts for CO2 methanation.
The catalysts are a combination of sintered nickel mesh or wool fibers and nanometal …

The large-scale production of hydrogen and the direct sequestration of carbon, in solid form,
from the decomposition of natural gas could constitute an attractive economic alternative for …

Induction heating has been applied for a variety of purposes over the years, including
hyperthermia-induced cell death, industrial manufacturing, and heterogeneous catalysis …

In the present paper, we compare the activity, selectivity, and stability of a supported nickel
catalyst in classical heating conditions and in magnetically activated catalysis by using iron …