상세 보기
- Choi, Hyung-jong;
- Kim, Keun-hee;
- Jeong, Heonjun;
- Kim, Donghwan;
- Han, Gwondeok;
- 외 5명
WEB OF SCIENCE
1SCOPUS
1초록
The effects of sintering temperature and Zr/Ce ratio on BaZrxCe0.8–xY0.1Yb0.1O3−δ (BZCYYb) for proton ceramic fuel cell applications were investigated. Higher sintering temperatures and higher Ce contents led to increased formation of Y/Yb-rich secondary phases, attributed to Ba evaporation and Ce loss, which disrupted B-site stability. Electrochemical testing using thin-film electrolytes on the anode-supported cells showed that sintering at ≥1400 °C caused high interfacial resistance due to these secondary phases. In contrast, sintering at 1300 °C resulted in insufficient densification and high ohmic resistance. The optimal performance was achieved with a BZCYYb 2611 sample sintered at 1350 °C, exhibiting good densification, minimal secondary phase formation, and high power density across various operating temperatures. This sample demonstrated the best chemical and electrochemical stability.
키워드
- 제목
- Process-property relationships of protonic ceramic electrolytes
- 저자
- Choi, Hyung-jong; Kim, Keun-hee; Jeong, Heonjun; Kim, Donghwan; Han, Gwondeok; Ji, Hoil; Lee, Jong-ho; Prinz, Fritz B.; Bae, Kiho; Shim, Joon-hyung
- 발행일
- 2025-12
- 유형
- Article
- 권
- 51
- 호
- 29
- 페이지
- 61608 ~ 61618