Wiley_Advanced Science
Volume12, Issue29
August 7, 2025
71028
Large Area High-Performance Thin Film Solid Oxide Fuel Cell with Nanoscale Anode Functional Layer by Scalable Reactive Sputtering (Adv. Sci. 29/2025)
In article number 2502504, Young-Beom Kim, Sungeun Yang, Jihwan An, and co-workers demonstrate high-performance thin-film solid oxide fuel cells (TF-SOFCs) with nanoscale anode functional layers (n-AFLs) fabricated via rapid, scalable reactive sputtering. The optimized n-AFL improves triple-phase boundary kinetics and reduces resistance, achieving 1.33 W cm−2 in 1 cm2 cells and 19.36 W in 16 cm2 cells, highlighting a promising route toward TF-SOFC commercialization.
- Kyoungjae Ju
- Seongkook Oh
- Jong Hyuk Lee
- Hyong June Kim
- Hyunmin Kim
- Sung Eun Jo
- Juhwan Lee
- Byung Chan Yang
- Jisung Yoon
- Dong Won Shin
- Wanwoo Park
- Ji-Won Son
- Young-Beom Kim
- Sungeun Yang
- Jihwan An
https://advanced.onlinelibrary.wiley.com/doi/10.1002/advs.71028
Image created by minjeong Kim / Nanosphere
Wiley_Advanced Science
Volume12, Issue29
August 7, 2025
71028
Large Area High-Performance Thin Film Solid Oxide Fuel Cell with Nanoscale Anode Functional Layer by Scalable Reactive Sputtering (Adv. Sci. 29/2025)
In article number 2502504, Young-Beom Kim, Sungeun Yang, Jihwan An, and co-workers demonstrate high-performance thin-film solid oxide fuel cells (TF-SOFCs) with nanoscale anode functional layers (n-AFLs) fabricated via rapid, scalable reactive sputtering. The optimized n-AFL improves triple-phase boundary kinetics and reduces resistance, achieving 1.33 W cm−2 in 1 cm2 cells and 19.36 W in 16 cm2 cells, highlighting a promising route toward TF-SOFC commercialization.
https://advanced.onlinelibrary.wiley.com/doi/10.1002/advs.71028
Image created by minjeong Kim / Nanosphere