Methane decomposition can be utilized to produce COX-free hydrogen for PEM fuel cells, oil
refineries, ammonia and methanol production. Recent research has focused on enhancing …

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 …

A single pot sol-gel method was adopted for the synthesis of MgO nanoparticles supported
nickel and iron catalysts for undiluted methane decomposition into COx free hydrogen and …

Thermocatalytic decomposition of methane is an alternative route for the production of CO x-
free hydrogen and carbon nanomaterials. In this work, a set of novel Ni, Co and Fe based …

Abstract Ni–Pd/Al 2 O 3 catalysts were prepared and employed for the simultaneous
production of CO x-free hydrogen and carbon nanofibers via methane thermocatalytic …

Consumption of fossil fuels, especially in transport and energy-dependent sectors, has led to
large greenhouse gas production. Hydrogen is an exciting energy source that can serve our …

An experimental investigation on the thermal decomposition of CH4 into C and H2 was
carried out using a 5kW particle-flow solar chemical reactor tested in a solar furnace in the …

Unsupported NiO and NiO-CuO nano-particles were prepared by a facile method and these
nano-particles showed promising catalytic activity towards methane decomposition. The …

In this paper, iron-based catalysts, calcined at different temperatures (300–800° C),
supported over alumina, were investigated for hydrogen production via catalytic methane …

A leading method of hydrogen production that is free of carbon oxides is catalytic methane
decomposition. In this research, Fe supported catalysts produced by wet impregnation …