Hydrogen (H 2) storage has attracted the greatest attention in the contemporary day
because of the shortage of fuel. The water splitting is considered less cost-effective and lead …

Biomass, recognized as renewable green coal, is pivotal for energy conservation, emission
reduction, and dual-carbon objectives. Chemical loo** gasification, an innovative …

The present review focuses on the production of renewable hydrogen through the catalytic
steam reforming of bio-oil, the liquid product of the fast pyrolysis of biomass. Although in …

Perovskite materials play a backbone role in materials science to investigate various
applications including photocatalytic, photovoltaic, and hydrogen storage. Hydrogen storage …

This work presents a Density Functional Theory (DFT) study of the single perovskite CsXH 3
(X= Co, Zn). We used the CASTEP code to perform first-principles calculations and …

Sorption-enhanced steam gasification (SESG) of biomass using Ca-based materials is a
promising technology for H 2 production and in-situ CO 2 capture. Herein, Fe x Ni y CaO bi …

Hydrogen is considered an excellent source of renewable and sustainable energy which
can be produced from inexpensive starting materials such as biomass. The present study …

Steam reforming of bio-oil derived from biomass pyrolysis is one of the most promising
methods for the production of green hydrogen with minimal carbon footprint. In this context …

Chemical loo** gasification (CLG) is one of the promising ways to exploit biomass
resources and produce hydrogen-rich syngas. In this work, two spinel oxygen carrier (NiMn …

A series of LaNi 1-x Co x O 3 (x= 0, 0.2, 0.5, 0.8 and 1) perovskite catalysts were prepared
successfully and applied for toluene steam reforming as a model tar molecule. The Ni–Co …