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Voltage Loss Diagnosis in CO<sub>2</sub> Electrolyzers Using Five-Electrode Technique

Kentaro U. Hansen, Luke Cherniack, Feng Jiao

2022ACS Energy Letters84 citationsDOI

Abstract

CO2 electrolysis is a promising carbon utilization technology. Currently, energetic efficiency still requires a significant improvement for commercialization. To rationally design a more efficient CO2 electrolyzer, diagnostic tools are necessary to pinpoint the source of voltage losses across the full cell at work. Here we develop a five-electrode technique to probe voltage drops at the cathode, anode, membrane, and their interfaces in a typical zero-gap cell. We show that the cathode/membrane ionic interface is the major source of overpotential, contributing 720 mV voltage loss at 600 mA cm–2. This loss can be mitigated by coating the catalyst directly onto the membrane to lower ionic resistances, reducing this voltage loss to 80 mV at the same current density. The improved design enables us to achieve a full cell performance of 3.55 V and >95% CO Faradaic efficiency at 800 mA cm–2, representing the highest performance for CO2 electrolysis with a dilute bicarbonate electrolyte. The insights provided by the five-electrode technique may guide the rational design of future membrane-based electrochemical cells.

Topics & Concepts

CathodeOverpotentialElectrolysisAnodeMaterials scienceElectrolytePolymer electrolyte membrane electrolysisElectrodeFaraday efficiencyElectrochemistryVoltageOptoelectronicsChemical engineeringChemistryElectrical engineeringEngineeringPhysical chemistryCO2 Reduction Techniques and CatalystsAdvanced battery technologies researchIonic liquids properties and applications
Voltage Loss Diagnosis in CO<sub>2</sub> Electrolyzers Using Five-Electrode Technique | Litcius