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3D‐Printable Fluoropolymer Gas Diffusion Layers for CO<sub>2</sub> Electroreduction

Joshua Wicks, Melinda L. Jue, V. A. Beck, James S. Oakdale, Nikola A. Dudukovic, Auston L. Clemens, Siwei Liang, Megan E. Ellis, Geonhui Lee, Sarah E. Baker, Eric B. Duoss, Edward H. Sargent

2021Advanced Materials108 citationsDOIOpen Access PDF

Abstract

Abstract The electrosynthesis of value‐added multicarbon products from CO 2 is a promising strategy to shift chemical production away from fossil fuels. Particularly important is the rational design of gas diffusion electrode (GDE) assemblies to react selectively, at scale, and at high rates. However, the understanding of the gas diffusion layer (GDL) in these assemblies is limited for the CO 2 reduction reaction (CO 2 RR): particularly important, but incompletely understood, is how the GDL modulates product distributions of catalysts operating in high current density regimes &gt; 300 mA cm −2 . Here, 3D‐printable fluoropolymer GDLs with tunable microporosity and structure are reported and probe the effects of permeance, microstructural porosity, macrostructure, and surface morphology. Under a given choice of applied electrochemical potential and electrolyte, a 100 × increase in the C 2 H 4 :CO ratio due to GDL surface morphology design over a homogeneously porous equivalent and a 1.8 × increase in the C 2 H 4 partial current density due to a pyramidal macrostructure are observed. These findings offer routes to improve CO 2 RR GDEs as a platform for 3D catalyst design.

Topics & Concepts

FluoropolymerMaterials scienceElectrolyteChemical engineeringGaseous diffusionElectrochemistryPorosityDiffusionCatalysisElectrosynthesisElectrodeNanotechnologyCurrent densityLayer (electronics)Gas diffusion electrodeComposite materialOrganic chemistryChemistryPolymerPhysical chemistryFuel cellsPhysicsThermodynamicsEngineeringQuantum mechanicsCO2 Reduction Techniques and CatalystsIonic liquids properties and applicationsAdvanced battery technologies research
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