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CO<sub>2</sub> Electrochemical Reduction with Zn-Al Layered Double Hydroxide-Loaded Gas-Diffusion Electrode

Ryosuke Nakazato, Keeko Matsumoto, Noboru YAMAGUCHI, Margherita Cavallo, Valentina Crocellà, Francesca Bonino, Matthias Quintelier, Joke Hadermann, Nataly Carolina Rosero‐Navarro, Akira Miura, Kiyoharu Tadanaga

2023Electrochemistry12 citationsDOIOpen Access PDF

Abstract

Carbon dioxide electrochemical reduction (CO2ER) has attracted considerable attention as a technology to recycle CO2 into raw materials for chemicals using renewable energies. We recently found that Zn-Al layered double hydroxides (Zn-Al LDH) have the CO-forming CO2ER activity. However, the activity was only evaluated by using the liquid-phase CO2ER. In this study, Ni-Al and Ni-Fe LDHs as well as Zn-Al LDH were synthesized using a facile coprecipitation process and the gas-phase CO2ER with the LDH-loaded gas-diffusion electrode (GDE) was examined. The products were characterized by XRD, STEM-EDX, BF-TEM and ATR-IR spectroscopy. In the ATR-IR results, the interaction of CO2 with Zn-Al LDH showed a different carbonates evolution with respect to other LDHs, suggesting a different electrocatalytic activity. The LDH-loaded GDE was prepared by simple drop-casting of a catalyst ink onto carbon paper. For gas-phase CO2ER, only Zn-Al LDH exhibited the CO2ER activity for carbon monoxide (CO) formation. By using different potassium salt electrolytes affording neutral to strongly basic conditions, such as KCl, KHCO3 and KOH, the gas-phase CO2ER with Zn-Al LDH-loaded GDE showed 1.3 to 2.1 times higher partial current density for CO formation than the liquid-phase CO2ER.

Topics & Concepts

Layered double hydroxidesElectrochemistryHydroxideInorganic chemistryElectrolyteCoprecipitationChemistryPotassium hydroxideElectrodeCarbon monoxideCatalysisOrganic chemistryPhysical chemistryCO2 Reduction Techniques and CatalystsAdvanced battery technologies researchSupercapacitor Materials and Fabrication
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