The energy crisis and environmental pollution have recently fostered research on efficient
methods such as environmental catalysis to produce biofuel and to clean water …

The rampant global energy demand is predominantly met by fossil fuels, resulting in the
reduction of their supply and an alarming increase in greenhouse gas (GHG) emissions …

The thermocatalytic decomposition (TCD) of methane is considered as a milestone towards
the production of valuable CO x-free hydrogen and carbon nanomaterials without the use of …

The production of hydrogen to be used as an alternative renewable energy has been widely
explored. Among various methods for producing hydrogen from hydrocarbons, methane …

Catalytic decomposition of methane (CDM) is a low-carbon hydrogen production process
where pure hydrogen and solid carbon are produced. In this study, we investigate catalyst …

A series of MgO supported bimetallic Fe–Mo catalysts with various Fe: Mo weight ratios
(such as 50: 0, 45: 5, 40: 10, 30: 20, 20: 30 and 10: 40, respectively) have been prepared …

It is very important to find cheap and efficient catalysts for catalytic co-pyrolysis. Catalytic co-
pyrolysis of herb residue (HR) and reused polypropylene (PP) using Ni-X/biochar and ZSM …

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 …

As a kind of versatile, excellent catalyst carriers, mesoporous silicas (mSiO 2) have been
widely applied for preparing various supported catalysts with ideal catalytic properties due to …

Hydrogen fuel production from methane cracking is a sustainable process compared to the
ones currently in practice due to minimal greenhouse gas emissions. Carbon black that is co …