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 …

H 2 is regarded as one of the cleanest future energy carrier that can be generated from
renewable sources and will give rise to a reduction of CO 2 emissions and environmental …

Biomass gasification for hydrogen (H 2) production provides outstanding advantages in
terms of renewable energy resources, carbon neutral, high efficiency, and environmental …

This Review describes recent advances in the design, synthesis, reactivity, selectivity,
structural, and electronic properties of the catalysts for reforming of a variety of oxygenates …

Bio-oil is a mixture of organics produced from pyrolysis of biomass. The organics in bio-oil
serve as the feedstock for the production of hydrogen, chemicals, biofuels, and carbon …

Hydrogen and synthesis gas can be produced in an environmentally friendly and
sustainable way through steam reforming (SR) of bio-oil and this review presents the state-of …

Nickel, iron, cobalt and copper catalysts were prepared by impregnation and used to
produce carbon nanotubes and hydrogen gas from a LDPE feedstock. A two stage catalytic …

Herein, in situ generation of CuCoNi nanoalloys over a high-entropy oxide Co3MnNiCuZnO
x matrix has been employed to generate a sintering-resistant metal-oxide interface for the …

The steam reforming of bio-oil is a promising and economically feasible technology for the
sustainable H 2 production, yet with the main challenge of designing highly active and …

Hydrogen has wide applications in the chemical and petroleum industries and is a clean
energy carrier for electrical power generation and transportation. However, in current …