This review discusses the real-world application of metal–organic frameworks (MOFs)-
based nanocatalysts for direct conversion of carbon dioxide (CO 2) to value-added …

The reaction between carbon dioxide and epoxides is an attractive pathway for CO2-
utilisation as it can lead to the formation of two different, yet valuable, products: cyclic and …

Metal–organic frameworks (MOFs) are an emerging class of porous materials with potential
applications in gas storage, separations, catalysis, and chemical sensing. Despite numerous …

Crystalline porous materials are important in the development of catalytic systems with high
scientific and industrial impact. Zeolites, ordered mesoporous silica, and metal–organic …

Catalysis of C1 chemistry, especially for carbon monoxide (CO), carbon dioxide (CO 2) and
methane (CH 4), is critically important for the clean production of fuels and chemicals and …

Global concerns about high CO 2 levels and dwindling supplies of fossil resources are
increasing. The utilization of CO 2 and waste biomass as renewable resources for valuable …

The capture and chemical fixation of carbon dioxide (CO 2) into cyclic carbonates is
considered to be a promising way to alleviate CO 2 concerns and produce fine chemicals …

This review summarizes the use of metal–organic frameworks (MOFs) as a versatile
supramolecular platform to develop heterogeneous catalysts for a variety of organic …

CO 2 capture and utilization (CCU) is an effective strategy to mitigate global warming.
Absorption, adsorption and membranes are methods used for CO 2 separation and capture …

A highly porous metal–organic framework (MOF) incorporating both exposed metal sites and
nitrogen-rich triazole groups was successfully constructed via solvothermal assembly of a …