FIELD: electrochemical devices.
SUBSTANCE: invention relates to production of materials for electrochemical devices, namely, solid oxide electrolyte materials with proton conductivity based on barium-lanthanum indate (BaLa2In2O7), which can be used as an electrolyte material in proton-conducting solid oxide fuel cells used to generate electric power. The material is barium-lanthanum indate doped with yttrium and has the following composition: BaLa2InYO7.
EFFECT: increased proton conductivity.
1 cl, 4 dwg, 1 tbl
| Title | Year | Author | Number |
|---|---|---|---|
| SOLID OXIDE ELECTROLYTE MATERIAL WITH PROTON CONDUCTIVITY BASED ON BARIUM-LANTHANUM INDATE | 2022 |
|
RU2777335C1 |
| SOLID OXIDE ELECTROLYTE MATERIAL WITH PROTON CONDUCTIVITY | 2022 |
|
RU2781270C1 |
| SOLID OXIDE ELECTROLYTE MATERIAL WITH PROTON CONDUCTIVITY BASED ON BARIUM-LANTHANUM INDATE BaLaInO DOPED WITH STRONTIUM AND MAGNESIUM | 2023 |
|
RU2806785C1 |
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|
RU2807442C1 |
| SOLID OXIDE ELECTROLYTE MATERIAL WITH PROTON CONDUCTIVITY BASED ON BARIUM-LANTHANUM INDATE | 2022 |
|
RU2789752C1 |
| SOLID OXIDE ELECTROLYTE MATERIAL WITH PROTON CONDUCTIVITY BASED ON BARIUM INDATE-LANTHANUM | 2022 |
|
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|
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| SOLID OXIDE ELECTROLYTE MATERIAL WITH PROTON CONDUCTIVITY BASED ON PRASEODYMIUM-SUBSTITUTED BARIUM-LANTHANUM INDATE | 2023 |
|
RU2800229C1 |
| SOLID OXIDE ELECTROLYTE MATERIAL WITH PROTON CONDUCTIVITY BASED ON NEODYMIUM BARIUM INDATE | 2023 |
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|
RU2807675C1 |
