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Large Area High-Performance Thin Film Solid Oxide Fuel Cell with Nanoscale Anode Functional Layer by Scalable Reactive Sputteringopen access

Authors
Ju, KyoungjaeOh, SeongkookLee, Jong HyukKim, Hyong JuneKim, HyunminJo, Sung EunLee, JuhwanYang, Byung ChanYoon, JisungShin, Dong WonPark, WanwooSon, Ji-WonKim, Young-BeomYang, SungeunAn, 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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