Modulating anionic oxygen in metal oxides offers exceptional opportunities for energy
material synthesis via redox loo**; however, several challenges such as overoxidation …

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 …

As a promising approach for carbon dioxide capture, chemical loo** combustion has been
extensively investigated for more than two decades. However, the chemical loo** strategy …

Efficient integration of calcium-loo** (CaL) and dry reforming of methane (DRM), termed
as CaLDRM, into an isothermal process implemented on a bifunctional Ni-CaO based …

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

This review aims to give more understanding of the selection and development of oxygen
carrier materials for chemical loo**. Chemical loo**, a rising star in chemical …

Moderating oxide/metal-support interactions over redox catalysts is effective way to achieve
efficient chemical loo** CO 2 conversion, however, identify the interaction type, control the …

Dehydrogenation processes play an important role in the petrochemical industry. High
selectivity towards olefins is usually hindered by numerous side reactions in a conventional …

In this study, we successfully developed nickel (Ni)-modified tungstate zirconia
(Ni/WO3/ZrO2) as an effective material for chemical loo** dry reforming of methane (CL …

Dry reforming of methane (DRM) for the production of synthesis gas (syngas: H 2+ CO) was
performed over a series of nickel-based catalysts supported on γ-alumina promoted by B, Si …