It is worthwhile to invest in the development of CO 2 reforming of methane, as it presents a
promising alternative for transforming two global warming gases into a very versatile product …

The acidity and basicity of Ni based catalysts play very important role in the catalytic
performance during dry reforming of methane. Hence, the effects of surface basicity …

Six types of alumina-support Ni catalysts were studied in dry reforming of methane to find out
the influence that calcination rate, calcination temperature, and reduction temperature had …

Dual-atom catalysts (DACs) hold great potential for improving the catalytic activity towards
the oxygen reduction reaction (ORR). However, the design of highly effective DACs is still …

Ni–Co bimetal catalysts showed the resistance to carbon deposition in DRM, and Co
segregation on Ni surface plays very important role, but the underlying mechanism remains …

The cluster size of the active metal of the catalyst has great effect on the carbon deposits
during the dry reforming of methane. In this paper, the effect of active metal cluster size on …

Dry reforming of methane (DRM) with CO 2 to syngas can not only reduce the greenhouse
gas emissions, but also enrich energy resources. In this study, the performances of the direct …

Abstract Sorption Enhanced Steam Methane Reforming (SESMR) provides a promising
method to produce high purity hydrogen by in-situ CO 2 capture. Ni-doped CaO (Ni-CaO) …

Chemical-looping combustion has been regarded as a promising technology to realize low-
cost CO 2 separation. CuMn 2 O 4 homogeneously combining Cu and Mn into spinel matrix …

The sorption-enhanced water-gas shift (SE-WGS) reaction promoted by Ni-doped CaO (Ni-
CaO) was sufficiently investigated by experiments that only displayed macroscopic results …