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| 001 | 203108 | ||
| 005 | 20240711101527.0 | ||
| 024 | 7 | _ | |2 doi |a 10.1149/2.0101512jes |
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| 100 | 1 | _ | |0 P:(DE-Juel1)129636 |a Menzler, Norbert H. |b 0 |e Corresponding author |
| 111 | 2 | _ | |a Solid Oxide Fuel Cells 14 |c Glasgow |d 2015-07-26 - 2015-07-31 |g SOFC-XIV |w United Kingdom |
| 245 | _ | _ | |a Chromium-related degradation of thin-film electrolyte solid oxide fuel cell stacks |
| 260 | _ | _ | |a Pennington, NJ |b Electrochemical Soc. |c 2015 |
| 336 | 7 | _ | |a Journal Article |b journal |m journal |0 PUB:(DE-HGF)16 |s 1440743100_27752 |2 PUB:(DE-HGF) |
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| 520 | _ | _ | |a SOFC short stacks with thin-film electrolyte anode-supported cells were operated for up to ∼3,000 h and post-test characterized. The cells consisted of thin electrolyte films (≤ 3 μm) and LSCF or LSC cathodes. Typical manganese-oxide chromium evaporation protection layers and perovskitic cathode contact layers were used. Operating parameters were: temperatures between 600°C and 750°C, a current density of 500 mA/cm², hydrogen with 20% water vapor as fuel, and a fuel utilization of ∼40%. Microstructural characterization revealed that Cr-containing phases formed at different locations. SEM and TEM analysis of some cells additionally showed microstructural changes within the GDC layer. A possible explanation for the different chromium-containing phase locations based on theoretical assumptions is given. |
| 536 | _ | _ | |0 G:(DE-HGF)POF3-135 |a 135 - Fuel Cells (POF3-135) |c POF3-135 |f POF III |x 0 |
| 536 | _ | _ | |0 G:(DE-Juel1)SOFC-20140602 |a SOFC - Solid Oxide Fuel Cell (SOFC-20140602) |c SOFC-20140602 |f SOFC |x 1 |
| 700 | 1 | _ | |0 P:(DE-Juel1)129662 |a Sebold, Doris |b 1 |
| 700 | 1 | _ | |0 P:(DE-Juel1)145945 |a Fang, Qingping |b 2 |
| 773 | _ | _ | |0 PERI:(DE-600)2002179-3 |a 10.1149/2.0101512jes |n 12 |p F1275-F1281 |t Journal of the Electrochemical Society |v 162 |x 0013-4651 |y 2015 |
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