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One Stone, Two Birds: Using High Electric Fields to Enhance the Mobility and the Concentration of Point Defects in Ion-Conducting Solids

Dennis Kemp, Roger A. De Souza

2024Journal of the American Chemical Society10 citationsDOIOpen Access PDF

Abstract

High Resolution Image Download MS PowerPoint Slide Improving the ionic conductivity of outstanding, composition-optimized crystalline electrolytes is a major challenge. Achieving increases of orders of magnitude requires, conceivably, highly nonlinear effects. One known possibility is the use of high electric fields to increase point-defect mobility. In this study, we investigate quantitatively a second possibility that high electric fields can increase substantially point-defect concentrations. As a model system, we take a pyrochlore oxide (La 2 Zr 2 O 7 ) for its combination of structural vacancies and dominant anti-Frenkel disorder; we perform molecular-dynamics simulations with many-body potentials as a function of temperature and applied electric field. Results within the linear regime yield the activation enthalpies and entropies of oxygen-vacancy and oxygen-interstitial migration, and from three independent methods, the enthalpy and entropy of anti-Frenkel disorder. Transport data for the nonlinear regime are consistent with field-enhanced defect concentrations and defect mobilities. A route for separating the two effects is shown, and an analytical expression for the quantitative prediction of the field-dependent anti-Frenkel equilibrium constant is derived. In summary, we demonstrate that the one stone of a nonlinear driving force can be used to hit two birds of defect behavior.

Topics & Concepts

Electric fieldChemistryPyrochloreCrystallographic defectFrenkel defectIonNonlinear systemVacancy defectEnthalpyElectrolyteChemical physicsIonic bondingCondensed matter physicsIonic conductivityThermodynamicsPhysical chemistryCrystallographyPhysicsOrganic chemistryPhase (matter)ElectrodeQuantum mechanicsAdvancements in Solid Oxide Fuel CellsNuclear materials and radiation effectsElectronic and Structural Properties of Oxides