Biomass gasification is one of the most promising technologies to convert renewable
biomass feedstock to useful energy and chemicals for decarbonizing the current industrial …

Catalytic decomposition of methane (CDM) is a promising technology for producing CO x-
free hydrogen and nano-carbon, meanwhile it is a prospective substitute to steam reforming …

Hydrogen is a clean fuel widely used in fuel cells, engines, rockets and many other devices.
The catalytic decomposition of methane (CDM) is a CO x-free hydrogen production …

Catalytic decomposition of methane to produce H 2 of high purity along with high value-
added carbon nanotubes (CNTs) is a promising clean energy-conversion method but …

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 …

The global initiatives on sustainable and green energy resources as well as large methane
reserves have encouraged more research to convert methane to hydrogen. Catalytic …

The non-oxidative thermo catalytic decomposition of methane into COx-free hydrogen and
nanocarbon has attracted recent research interest, due to the concern of zero emission of …

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 …

Industrial and technological developments have resulted in a rapid increase in the rate of
global energy consumption with the energy demand expected to increase by 33% by 2035 …

Co-synthesis of hydrogen and nanocarbon via methane cracking is a single step technique
which meets ever growing need of greenhouse gas (GHG) free energy. Additionally, as …