Large Area High-Performance Thin Film Solid Oxide Fuel Cell with Nanoscale Anode Functional Layer by Scalable Reactive Sputteringopen access
- Authors
- Ju, Kyoungjae; Oh, Seongkook; Lee, Jong Hyuk; Kim, Hyong June; Kim, Hyunmin; Jo, Sung Eun; Lee, Juhwan; Yang, Byung Chan; Yoon, Jisung; Shin, Dong Won; Park, Wanwoo; Son, Ji-Won; Kim, Young-Beom; Yang, Sungeun; An, Jihwan
- Issue Date
- Aug-2025
- Publisher
- WILEY
- Keywords
- nanostructured anode functional layer; reactive sputtering; solid oxide fuel cells; thin-film solid oxide cells; triple-phase boundary
- Citation
- ADVANCED SCIENCE, v.12, no.29, pp 1 - 10
- Pages
- 10
- Indexed
- SCIE
SCOPUS
- Journal Title
- ADVANCED SCIENCE
- Volume
- 12
- Number
- 29
- Start Page
- 1
- End Page
- 10
- URI
- https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/212684
- DOI
- 10.1002/advs.202502504
- ISSN
- 2198-3844
2198-3844
- Abstract
- For high-performance thin-film solid oxide cells (TF-SOCs), a nanostructured anode functional layer (n-AFL) that can prolong the triple-phase boundary (TPB) is crucial, particularly for low-temperature operation. However, the implementation of n-AFL (usually >1 mu m in thickness) has critical issues in scale-up and productivity. Here, the study successfully demonstrates a large-area, high-performance TF-SOFC with an n-AFL fabricated via mass-production-compatible reactive magnetron sputtering. The cell with optimized n-AFL by adjusting crucial reactive-sputtering process parameters, i.e., oxygen partial pressure and sputtering power, shows superior performance compared to that of the cell without n-AFL: the reduction both in ohmic and anodic polarization resistances by 63% and 34%, respectively, and the improvement in maximum power density by 89% (0.705 W cm(-2) vs 1.333 W cm(-2)) at 650 degrees C. When employed in large-scale cell (4 x 4 cm(2)), the TF-SOFC with n-AFL showed 19.4 W at 650 degrees C.
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