Standard

Ionic (O2– and H+) Transport in Oxygen-Deficient Perovskites La2Me+3ZnO5.5. / Egorova, A. V.; Belova, K. G.; Lakiza, N. V. et al.
In: Russian Journal of Electrochemistry, Vol. 59, No. 4, 2023, p. 276-283.

Research output: Contribution to journalArticlepeer-review

Harvard

Egorova, AV, Belova, KG, Lakiza, NV & Animitsa, IE 2023, 'Ionic (O2– and H+) Transport in Oxygen-Deficient Perovskites La2Me+3ZnO5.5', Russian Journal of Electrochemistry, vol. 59, no. 4, pp. 276-283. https://doi.org/10.1134/S1023193523040055

APA

Egorova, A. V., Belova, K. G., Lakiza, N. V., & Animitsa, I. E. (2023). Ionic (O2– and H+) Transport in Oxygen-Deficient Perovskites La2Me+3ZnO5.5. Russian Journal of Electrochemistry, 59(4), 276-283. https://doi.org/10.1134/S1023193523040055

Vancouver

Egorova AV, Belova KG, Lakiza NV, Animitsa IE. Ionic (O2– and H+) Transport in Oxygen-Deficient Perovskites La2Me+3ZnO5.5. Russian Journal of Electrochemistry. 2023;59(4):276-283. doi: 10.1134/S1023193523040055

Author

Egorova, A. V. ; Belova, K. G. ; Lakiza, N. V. et al. / Ionic (O2– and H+) Transport in Oxygen-Deficient Perovskites La2Me+3ZnO5.5. In: Russian Journal of Electrochemistry. 2023 ; Vol. 59, No. 4. pp. 276-283.

BibTeX

@article{947bc8639bf3493ea866bc04161d5b62,
title = "Ionic (O2– and H+) Transport in Oxygen-Deficient Perovskites La2Me+3ZnO5.5",
abstract = "Abstract: The paper is devoted to the study of the conduction mechanism in perovskite phases with composition La2 Me +3ZnO5.5 (Me +3 = Al3+, Sc3+, In3+). The phases were synthesized by a standard ceramic technique in the 700–1300°C temperature range. The structure of the La2InZnO5.5 and La2ScZnO5.5 samples is orthorhombic, while the La2AlZnO5.5 sample crystallizes in the cubic symmetry. The electrical conductivity of La2Me+3ZnO5.5 (Me+3 = Al3+, Sc3+, In3+) samples is studied as a function of temperature (200–900°C), oxygen partial pressure pO2, and humidity pH2O. The complex oxides are found to have a mixed type of conduction in air, the electronic contribution (the p-type conduction) increases with increasing temperature. The phases exhibit the dominant oxygen-ion transport at temperatures below 500°C. In wet atmosphere, Sc3+- and In3+-containing samples are capable of incorporating water from gas phase and forming proton defects. No significant proton transport in the La2AlZnO5.5 sample is realized. The partial conductivities (Formula presented.) , σh in a wide range of temperatures and рО2 are discussed. {\textcopyright} 2023, Pleiades Publishing, Ltd.",
author = "Egorova, {A. V.} and Belova, {K. G.} and Lakiza, {N. V.} and Animitsa, {I. E.}",
year = "2023",
doi = "10.1134/S1023193523040055",
language = "English",
volume = "59",
pages = "276--283",
journal = "Russian Journal of Electrochemistry",
issn = "1023-1935",
publisher = "Pleiades Publishing",
number = "4",

}

RIS

TY - JOUR

T1 - Ionic (O2– and H+) Transport in Oxygen-Deficient Perovskites La2Me+3ZnO5.5

AU - Egorova, A. V.

AU - Belova, K. G.

AU - Lakiza, N. V.

AU - Animitsa, I. E.

PY - 2023

Y1 - 2023

N2 - Abstract: The paper is devoted to the study of the conduction mechanism in perovskite phases with composition La2 Me +3ZnO5.5 (Me +3 = Al3+, Sc3+, In3+). The phases were synthesized by a standard ceramic technique in the 700–1300°C temperature range. The structure of the La2InZnO5.5 and La2ScZnO5.5 samples is orthorhombic, while the La2AlZnO5.5 sample crystallizes in the cubic symmetry. The electrical conductivity of La2Me+3ZnO5.5 (Me+3 = Al3+, Sc3+, In3+) samples is studied as a function of temperature (200–900°C), oxygen partial pressure pO2, and humidity pH2O. The complex oxides are found to have a mixed type of conduction in air, the electronic contribution (the p-type conduction) increases with increasing temperature. The phases exhibit the dominant oxygen-ion transport at temperatures below 500°C. In wet atmosphere, Sc3+- and In3+-containing samples are capable of incorporating water from gas phase and forming proton defects. No significant proton transport in the La2AlZnO5.5 sample is realized. The partial conductivities (Formula presented.) , σh in a wide range of temperatures and рО2 are discussed. © 2023, Pleiades Publishing, Ltd.

AB - Abstract: The paper is devoted to the study of the conduction mechanism in perovskite phases with composition La2 Me +3ZnO5.5 (Me +3 = Al3+, Sc3+, In3+). The phases were synthesized by a standard ceramic technique in the 700–1300°C temperature range. The structure of the La2InZnO5.5 and La2ScZnO5.5 samples is orthorhombic, while the La2AlZnO5.5 sample crystallizes in the cubic symmetry. The electrical conductivity of La2Me+3ZnO5.5 (Me+3 = Al3+, Sc3+, In3+) samples is studied as a function of temperature (200–900°C), oxygen partial pressure pO2, and humidity pH2O. The complex oxides are found to have a mixed type of conduction in air, the electronic contribution (the p-type conduction) increases with increasing temperature. The phases exhibit the dominant oxygen-ion transport at temperatures below 500°C. In wet atmosphere, Sc3+- and In3+-containing samples are capable of incorporating water from gas phase and forming proton defects. No significant proton transport in the La2AlZnO5.5 sample is realized. The partial conductivities (Formula presented.) , σh in a wide range of temperatures and рО2 are discussed. © 2023, Pleiades Publishing, Ltd.

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U2 - 10.1134/S1023193523040055

DO - 10.1134/S1023193523040055

M3 - Article

VL - 59

SP - 276

EP - 283

JO - Russian Journal of Electrochemistry

JF - Russian Journal of Electrochemistry

SN - 1023-1935

IS - 4

ER -

ID: 39195211