M. Z. Uritsky scite author profile

The tracer diffusion coefficient D* and the mobility of protons in proton-conducting oxides of the АIIВIV 1-xRIII xO3-δ family have been calculated using the Monte Carlo method as functions of temperature and concentration x of the acceptor impurity RIII. The effect of protondopant interactions (proton trapping) and the effect of protonic sites blocking caused by protonproton and proton - oxygen vacancy interactions, are analyzed. It is shown that the proton diffusivity depends significantly on the dopant content and is considerably reduced already at small x. The D* value weakly depends on the concentration of oxygen vacancies at fixed, not too large values of x. The conductivity dependence on the doping concentration σ(x) can have a maximum due to the proton-defect and proton-proton interactions. The Haven ratio deviates slightly from unity at the expected intensity of interparticle correlations. The calculated values of both the diffusivity activation energy increase (with x), and the location of the σ(x) maxima agree with the experimental data for a number of proton-conducting oxides.

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Mobility and diffusion of oxygen isotopes in YBa2Cu3O6+x : Monte carlo simulation

Uritsky

Tsidilkovski

2003

Phys. Solid State

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Proton transport in doped yttrium oxide. Monte-Carlo simulation

Uritsky

Tsidilkovski

2012

Russ J Electrochem

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M. Z. Uritsky

Role of an acceptor impurity in the proton transfer in proton-conducting oxides

The Influence of Defects on Proton Diffusion in Perovskites А<sup>II</sup>В<sup>IV</sup>1<sub>1-x</sub>R<sup>III</sup><sub>x</sub>O<sub>3-δ</sub>: Monte Carlo Study

Mobility and diffusion of oxygen isotopes in YBa2Cu3O6+x : Monte carlo simulation

Proton transport in doped yttrium oxide. Monte-Carlo simulation

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