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A review on catalyst convergence: Unleashing the potential of MXenes for CO2 electrochemical reduction into high-value liquid product

Samia, Muhammad Hasnain Jameel, Musfira Arain, Iftikhar Hussain, Muhammad Bilal Hanif, Shalu Atri, Mohd Zul Hilmi Mayzan, Haitao Dai

2024Nano Materials Science21 citationsDOIOpen Access PDF

Abstract

The electrochemical reduction reaction of carbon dioxide (CO2-ERR) holds tremendous potential as a key approach for achieving carbon neutrality by harnessing renewable resources. However, the current state of CO2-ERR encounters challenges in terms of efficiency and selectivity. Overcoming these obstacles requires the development of a robust electrocatalyst capable of enhancing process efficiency and improving selectivity towards desired products. In recent years, 2D materials have garnered significant attention as efficient catalysts. Among them, MXene stands out of high interest due to unique multilayered structure and presence of surface functional moieties. The MXene material offers high electrical conductivity, versatile surface chemistry, and tunable interface designs. This comprehensive review explores the utilization of MXene-based catalysts for CO2-ERR into valuable products. It covers fundamental aspects of electrochemical conversion, including CO2 adsorption on MXene Ti3C2Tx, the mechanism of CO2-ERR on MXene (Mo2CS2) single-atom catalysts, applications, synthesis methods of MXene production, and future prospects. Additionally, the review highlights the significance of modern artificial intelligence techniques, particularly machine learning, in screening and activating CO2, making it a pioneering scientific endeavor.

Topics & Concepts

MXenesElectrochemistryReduction (mathematics)Product (mathematics)CatalysisConvergence (economics)Value (mathematics)Materials scienceChemical engineeringChemistryComputer scienceNanotechnologyMathematicsEngineeringElectrodeOrganic chemistryEconomicsPhysical chemistryGeometryEconomic growthMachine learningMXene and MAX Phase MaterialsAdvanced Photocatalysis TechniquesCO2 Reduction Techniques and Catalysts
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