Sprayed Ag oxygen reduction reaction gas‐diffusion electrodes for the electrocatalytic reduction of CO<sub>2</sub> to CO

Wilde, Patrick; Özden, Anil; Winter, Henrik; Quast, Thomas; Weidner, Jonas; Dieckhöfer, Stefan; Junqueira, João R. C.; Metzner, Matthias; Peter, Willi; Leske, W.; Öhl, Denis; Bobrowski, Tim; Turek, Thomas; Schuhmann, Wolfgang

doi:10.1002/appl.202200081

Applied Research

2022

DOI: 10.1002/appl.202200081

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Sprayed Ag oxygen reduction reaction gas‐diffusion electrodes for the electrocatalytic reduction of CO₂ to CO

Patrick Wilde

Anil Özden

Henrik Winter

et al.

Abstract: Gas‐diffusion electrodes have been successfully employed in electrochemical chlorine production, and they also hold great potential in the field of electrochemical CO2 reduction. Herein, we demonstrate how sprayed Ag‐based gas‐diffusion electrodes, which show outstanding performance for the reduction of oxygen, need to be modified to produce CO from CO2. A computer‐controlled automated airbrush‐type spraying setup is used to systematically vary the core fabrication parameters of the process and investigate the… Show more

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Method—Best Practices and Common Pitfalls in Experimental Investigation of Electrochemical CO₂ Reduction at Gas Diffusion Electrodes

Osiewacz,

Ellendorff,

Kunz

et al. 2024

J. Electrochem. Soc.

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Gas diffusion electrodes (GDEs) play a crucial role in the development of electro-chemical CO2 reduction (eCO2R) towards an conomically viable process. While membrane electrode assemblies (MEAs) are currently the most efficient approach due to their low cell voltage, electrolyte supported GDEs still present a valuable tool for the characterization of catalysts under industrially relevant current densities, allowing for direct measurement of the electrode potential against reference electrodes. In this study, common experimental methods of iR correction and pressure control in eCO2R literature studies on GDEs are analyzed and compared regarding their potential impact on the reported results. It is revealed that failure to account for dynamic changes in iR-drop can lead to significant inaccuracies in reported electrode potentials. Additionally, common methods for the application of differential pressure across GDEs are shown to impact the performance, leading to additional errors in experimental results. Based on these findings, an experimental protocol for the application of single high frequency response as a method for iR correction is developed, providing a tool for reproducible electrochemical characterization of GDEs in eCO2R.

show abstract

Method—Best Practices and Common Pitfalls in Experimental Investigation of Electrochemical CO₂ Reduction at Gas Diffusion Electrodes

Osiewacz,

Ellendorff,

Kunz

et al. 2024

J. Electrochem. Soc.

View full text Add to dashboard Cite

show abstract

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Sprayed Ag oxygen reduction reaction gas‐diffusion electrodes for the electrocatalytic reduction of CO₂ to CO

Cited by 1 publication

References 36 publications

Method—Best Practices and Common Pitfalls in Experimental Investigation of Electrochemical CO₂ Reduction at Gas Diffusion Electrodes

Method—Best Practices and Common Pitfalls in Experimental Investigation of Electrochemical CO₂ Reduction at Gas Diffusion Electrodes

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Sprayed Ag oxygen reduction reaction gas‐diffusion electrodes for the electrocatalytic reduction of CO2 to CO

Cited by 1 publication

References 36 publications

Method—Best Practices and Common Pitfalls in Experimental Investigation of Electrochemical CO2 Reduction at Gas Diffusion Electrodes

Method—Best Practices and Common Pitfalls in Experimental Investigation of Electrochemical CO2 Reduction at Gas Diffusion Electrodes

Contact Info

Product

Resources

About

Sprayed Ag oxygen reduction reaction gas‐diffusion electrodes for the electrocatalytic reduction of CO₂ to CO

Method—Best Practices and Common Pitfalls in Experimental Investigation of Electrochemical CO₂ Reduction at Gas Diffusion Electrodes

Method—Best Practices and Common Pitfalls in Experimental Investigation of Electrochemical CO₂ Reduction at Gas Diffusion Electrodes