4.7 Article

Influence of divalent metal ions on CO2 valorization at room temperature by isostructural MOF-74 materials

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ELSEVIER SCI LTD
DOI: 10.1016/j.jece.2023.109497

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Metal organic framework; MOF-74; Heterogeneous catalyst; CO2 conversion; Epoxides

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The concentration of carbon dioxide has reached unprecedented levels. The valorization of CO2 into high value-added chemicals can stabilize the concentration of this atmospheric pollutant. The influence of metal in the catalytic reaction is key, with Zn-MOF-74 showing the highest catalytic activity and selectivity values above 93% regardless of the epoxides studied.
At present, the concentration of carbon dioxide (CO2) has increased to unprecedented levels. The valorization of CO2 into high value-added chemicals can be a very interesting alternative to stabilize the concentration of this atmospheric pollutant while the current energy transition takes place. The well-known M-MOF-74 family (M= Mg, Co, Ni, Cu and Zn) have been evaluated as heterogeneous catalysts to carry out several cycloaddition re-actions at room temperature with several epoxides (epichlorohydrin; 1,2-epoxyhexane and styrene oxide) as substrate, to evaluate the influence of the metal in this reaction. Zn-MOF-74 showed the highest catalytic ac-tivity, always with conversion and selectivity values above 93% regardless of the epoxides studied and the carbonates obtained, due to the higher acid character of the Zn2+ ion. Therefore, it is confirmed that the in-fluence of the metal is key in this reaction, despite the fact that Cu-MOF-74 with an adsorption capacity of 5 mmol/g of CO2 (45 degrees C, 5 bar) converts 26% of styrene oxide under the conditions evaluated compared to Zn-MOF-74, which is the material with the lowest adsorption capacity (3 mmol/g of CO2) and shows a conver-sion of 93%.

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