The emergence of high-entropy materials (HEMs) with their excellent mechanical properties,
stability at high temperatures, and high chemical stability is poised to yield new …

Hydrogen is an attractive energy carrier due to its potentially high energy efficiency and low
generation of pollutants, which can be used for transportation and stationary power …

Natural H 2 in useful quantities is negligible, which makes hydrogen unsuitable as an
energy resource compared to other fuels. H 2 production by solar, biological, or electrical …

A solid oxygen carrier is usually applied in a chemical loo** conversion process to
transfer oxygen from the gaseous oxygen source to the fuel, which can avoid the direct …

Engineering industries such as petroleum and petrochemicals have strict requirements for
the stability of hydrogen supply to ensure the safety and reliability of system operations …

Chemical‐loo** technology provides a versatile platform to convert methane in a clean
and efficient manner, achieving CO2 capture and generation of syngas/pure H2 without …

Chemical loo** steam methane reforming (CL-SMR) is a promising and efficient
technology for generating high-purity hydrogen with low energy penalty and minimum …

Chemical loo** technology enables achievement of the simultaneous feedstock
conversion and product separation without additional processes via circulating solid …

Chemical-loo** processes are considered as a suitable way to produce hydrogen and
syngas. The major advantage of the chemical loo** hydrogen production processes is that …

The high reaction temperature required for chemical loo** in water splitting presents
challenges in terms of producing stable oxygen carrier materials (OCMs). The currently …