Electrochemical conversion of CO 2 using metal-organic framework catalysts

Metal-organic frameworks (MOFs) have been an excellent platform for carbon dioxide reduction reactions (CO RR). In this work, the feasibility of electrochemical reduction of CO to obtain C -deep value-added products was investigated by the preparation of Mg-containing MOF-74 samples combined with tr...

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Bibliographic Details
Published in:Heliyon 2023-06, Vol.9 (6), p.e17138
Main Authors: Espinosa-Flores, Rodrigo Andrés, Trejo-Valdez, Martín Daniel, Manríquez-Ramírez, María Elena, Tzompantzi-Morales, Francisco Javier
Format: Article
Language:English
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Summary:Metal-organic frameworks (MOFs) have been an excellent platform for carbon dioxide reduction reactions (CO RR). In this work, the feasibility of electrochemical reduction of CO to obtain C -deep value-added products was investigated by the preparation of Mg-containing MOF-74 samples combined with transition metal cations (Ni , Co and Zn ). The prepared MOFs were used as electrocatalysts in CO RR. Chronoamperometric analysis coupled to ATR-FTIR spectroscopy was employed to characterize the CO reduction products and subsequently via H NMR. Although an isostructural crystalline structure was observed in all synthesized MOFs, the pore diameter distribution was significantly affected due to the Mg coordination along with each transition metal nuclei with the organic ligand to form the MOF-74. Our results showed that Mg-containing MOF-74 electrocatalysts combined with Ni, Co and Zn ions successfully reduced CO to C -deep products, while the monometallic Mg-MOF-74 showed only CO mineralization. An ester acetate, isopropyl alcohol, and formic acid were produced by Mg/Ni-MOF-74; isopropyl alcohol was provided by Mg/Co-MOF-74, and ethanol was generated by Mg/Zn-MOF-74. We observed that the change of the transition cation was a key factor in the selectivity of the obtained products, while the degree of Mg ions effectively incorporated into the MOF structure tuned the porosity and the electrocatalytic activity. Among them, Mg/Zn-MFOF-74 showed the highest Mg content loaded after synthesis and thus the most favorable electrocatalytic behavior towards CO reduction.
ISSN:2405-8440
2405-8440