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Critical Current Density as a Performance Indicator for Gas-Evolving Electrochemical Devices

Jason Keonhag Lee, ChungHyuk Lee, Kieran F. Fahy, Benzhong Zhao, Jacob M. LaManna, Elias Baltic, David L. Jacobson, Daniel S. Hussey, Aimy Bazylak

2020Cell Reports Physical Science84 citationsDOIOpen Access PDF

Abstract

Reaching high current densities is absolutely imperative for electrochemical energy conversion, from fuel cells to CO2 reduction. Here, we identify the existence of a performance indicator for gas-evolving electrochemical energy conversion devices: the critical current density. The critical current density pinpoints a performance inflection point whereby both the gas saturations and mass transport overpotentials suddenly dominate cell performance and exacerbate failure. We elucidate the mass transport behavior of a polymer electrolyte membrane (PEM) water electrolyzer using in operando neutron imaging at operating current densities as high as 9 A ⋅ cm−2. Product gases become heterogeneously distributed in the porous transport layer adjacent to the catalyst layer and promote disastrous local hotspots. Optimizing new materials and cell architectures with this performance indicator may unlock higher than previously reported performances for electrochemical energy conversion.

Topics & Concepts

Current densityMaterials scienceCurrent (fluid)ElectrolyteElectrochemistryMass transportElectrolysisProton exchange membrane fuel cellElectrodeNuclear engineeringChemical engineeringFuel cellsChemistryEngineering physicsThermodynamicsEngineeringPhysical chemistryQuantum mechanicsPhysicsFuel Cells and Related MaterialsElectrocatalysts for Energy ConversionAdvanced battery technologies research
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