There has been increasing demand for the fixation of CO 2 because the increasing
atmospheric concentration of CO 2 causes the global warming. Layered double hydroxides …

Clay minerals are a very interesting platform for the development of novel functional
materials. For years, there has been a growing interest in this field because clays offer …

Adsorption-based post-combustion carbon capture is a promising emerging technology for
capturing CO 2 emissions from fossil-fueled power plants due to the ease of adsorbent …

With increasing global warming awareness, layered double hydroxides (LDHs),
hydrotalcites, and their related materials are key components to reduce the environmental …

Curving the CO 2 atmospheric levels is one of the challenges of this century, given its direct
impact on climate change. Of the several strategies of CO 2 capture and storage, sorption …

In this work, advanced technologies concerning warm gas carbon capture and hydrogen
production from carbon-based fuels are reviewed, with a primary focus on the elevated …

Ni-hydrotalcite-based dual function materials (DFMs) have been prepared and applied for
the combined CO 2 capture and methanation in a single reactor. The materials have been …

Glycerol is the main by-product of biodiesel production and its use to produce hydrogen is a
wise option not only because glycerol valorization would decrease biodiesel price, thus …

Potentially–CO 2 adsorbing solids at moderate temperature have been prepared by
calcination at 400° C and 750° C of CaAlFe hydrocalumites (a sort of Ca 2+–layered double …

Metal oxide supported Ni-based catalysts represent intensively studied materials for CO2
methanation due to their relatively high activity, methane selectivity and low cost. However …