Metal-organic framework composites as electrocatalyst for carbon dioxide conversion
Khatereh Roohi (TU Delft - Team Peyman Taheri)
Jasper Coppen (TU Delft - Team Arjan Mol)
Arjan Mol (TU Delft - Team Arjan Mol)
Peyman Taheri (TU Delft - Team Peyman Taheri)
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Abstract
The increasing concentration of CO2 is a serious concern for the environment. Electrochemical conversion of CO2 into valuable products, including fuels, offers a viable solution and helps close the carbon-neutral cycle. Metal-organic framework (MOF) composites, due to their high porosity, large surface area, and significant chemical tunability, are considered to be a promising class of catalyst materials for the CO2 reduction reaction (CO2RR). This chapter focuses on the fundamentals of CO2RR and mechanism of the reaction followed by discussing the recent advancements in MOF composite electrocatalysts for CO2RR including MOF-supported electrocatalysts, conductive-supported MOF composites, graphene and carbonous MOF composites, MOF-MXenes, MOF-polymers, and polyoxometalate.