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Diverse Functions of Oxygen Vacancies for Oxygen Ion Conduction

Hongdong Cai, Xia Chen, Xunying Wang, Wenjing Dong, Haibo Xiao, Dan Zheng, Hao Wang, Baoyuan Wang

2022ACS Applied Energy Materials42 citationsDOI

Abstract

To elucidate the ion conduction mechanism, the pure oxide structure Sn1–xCexO2−δ (x = 0.05, 0.025) is obtained by doping Ce into SnO2 and combined with Sm0.2Ce0.8O3−δ to form an Sn1–xCexO2−δ–SDC semiconductor-ionic material (SIM), which is evaluated as the electrolyte membrane to assemble fuel cells. Raman measurements revealed that two types of oxygen vacancies, the Frenkel oxygen vacancy (F-OV) and the intrinsic oxygen vacancy (I-OV), simultaneously existed in the Sn1–xCexO2−δ–SDC SIM. Through X-ray photoelectron spectroscopy (XPS) characterization and density functional theory (DFT) calculation, it can be found that I-OVs provide a transport pathway for oxygen ions. In contrast, F-OVs function against the oxygen ion conduction due to the Coulomb repulsion of interstitial oxygen toward oxygen ions. The influence of the Ce doping in SnO2 lies on restraining the production of F-OVs to benefit the oxygen ion conduction and finally improve the electrochemical performance of the assembled fuel cell.

Topics & Concepts

OxygenElectrolyteIonX-ray photoelectron spectroscopyRaman spectroscopyOxideMaterials scienceDensity functional theoryThermal conductionIonic bondingDopingChemical physicsIonic conductivityChemistryAnalytical Chemistry (journal)Physical chemistryComputational chemistryElectrodeOptoelectronicsNuclear magnetic resonancePhysicsOpticsComposite materialOrganic chemistryChromatographyMetallurgyAdvancements in Solid Oxide Fuel CellsElectronic and Structural Properties of OxidesGas Sensing Nanomaterials and Sensors
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