Integration of CO2 capture and CO2 conversion through electrochemical processes has
emerged in recent years, offering a distinct advantage over the traditional independent …

Comprehensive Summary Advanced functionalization‐decorated porous organic polymers
(POPs) are emerging as a prominent research focus, spanning from their construction to …

Harnessing CO2 in conjunction with inexpensive reusable H2 for catalytic hydrogenation is
a viable method for lowering the environmental impact of industrial operations while …

In recent times, heterogenization of homogeneous molecular catalysts onto various porous
solid support structures has attracted significant research focus as a method for combining …

Halogenated porous melamine polymers were demonstrated to be efficient catalysts for CO
2-epoxide cycloaddition, selectively (> 99%) producing C3-C12 cyclic carbonates in …

Bertrand and we had found that typical frustrated Lewis pairs (FLPs), well-known to activate
H 2, were less efficient than non-frustrated Lewis Pairs (n-FLPs) for the hydrogenation of CO …

Efforts to combine the advantages of homogeneous catalysts in terms of activity with the
ease of separation process offered by heterogeneous catalysts continue to be actively …

Advances in the essential direct hydrogenation of CO 2 to formic acid are strongly linked to
the development of suitable catalytic systems. Here, we have followed the molecular …

A highly active mesoporous nano-nickel catalyst was synthesized by the sol–gel method for
the selective conversion of CO2 to formic acid (FA) in an aqueous medium. In this study …

Porous silica–ruthenium oxide composite catalysts were prepared with sol–gel‐based
method using a cationic surfactant, cethyltrimethylammonium bromide (CTAB), as templates …