Chemical carbon dioxide (CO2) fixation via cycloaddition with high energy three-membered
ring compounds such as epoxides is among the most promising pathways to reduce the …

N-Heterocyclic carbenes (NHCs) have become one of the most widely studied class of
ligands in molecular chemistry and have found applications in fields as varied as catalysis …

Fundamental aspects and actual developments of selective CO2 capture from relevant
sources (flue gas or air) by reversible physisorption are critically reviewed. Thermodynamic …

This paper presents details of recent research progress on CO 2 separation membranes and
membrane processes using ionic liquids (ILs) over the past few years, including supported …

This review presents a literature survey of recent work on poly (ionic liquid) s or polymerized
ionic liquids (PILs), a class of polyelectrolytes that has attracted rapidly increasing interest …

During the past decade, significant advances in ionic liquid-based materials for the
development of CO2 separation membranes have been accomplished. This review presents …

With increasing stringent standard of sulfur content in fuels, deep desulfurization with high-
efficiency is necessary for ecological and environmental demands. Herein, vanadium …

Efficient catalysis is essential from a green chemistry perspective. Porous organic polymers
(POPs) have recently emerged as highly effective materials for catalytic applications. POPs …

CO2 is the most influential greenhouse gas with drastic effects all over the world.
Meanwhile, global warming is considered a hot topic to different groups of scientists dealing …

The efficient capture and chemical conversion of carbon dioxide (CO2) requires a solid
simultaneously with a large surface area and highly effective active sites. Herein …