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Oxygen partial pressure and temperature dependent electrical conductivity of lithium-niobate-tantalate solid solutions

Uliana Yakhnevych, F. El Azzouzi, Felix Bernhardt, Claudia Kofahl, Yuriy Suhak, Simone Sanna, Klaus‐Dieter Becker, Harald Schmidt, Steffen Ganschow, Holger Fritze

2024Solid State Ionics16 citationsDOIOpen Access PDF

Abstract

The temperature and oxygen partial pressure (pO2) dependent electrical conductivity of LiNbO3, LiTaO3, LiNb1-xTaxO3 (LNT) solid solutions up to 900 °C is presented. The electrical conductivity is found to be isotropic up to about 700 °C. Different Nb/Ta ratios do not affect activation energies at temperatures below 600 °C, which suggests an identical conduction mechanism, namely the migration of Li ions by means of Li vacancies. Above this temperature, noticeable deviations in the conductivity of Nb rich samples emerge due to strongly increasing electronic contributions. The pO2 dependent conductivity is strongly affected by the Nb/Ta ratio, enabling the tailoring of electrical properties through composition control. At low pO2, Nb rich LNT shows a much larger conductivity compared to LT. At 900 °C, conductivity of LT remains unaffected by pO2 down to 10−9 bar. The experimental findings can be understood based on a defect model that does not include the evaporation of Li2O. The latter is, therefore, assumed to play a minor role for the short-term experiments up to 900 °C.

Topics & Concepts

Partial pressureElectrical resistivity and conductivityConductivityOxygenThermal conductionLithium (medication)Materials scienceIonic conductivityAnalytical Chemistry (journal)TantalateLithium niobateSolid solutionChemistryThermodynamicsFerroelectricityPhysical chemistryDielectricElectrolyteElectrodeComposite materialMetallurgyChromatographyElectrical engineeringMedicineEndocrinologyOrganic chemistryOptoelectronicsEngineeringPhysicsFerroelectric and Piezoelectric MaterialsPhotorefractive and Nonlinear OpticsMicrowave Dielectric Ceramics Synthesis