Highly efficient and robust cathode materials for low-temperature solid oxide fuel cells: PrBa0.5Sr0.5Co2?xFexO5+δ

Sihyuk Choi; Seonyoung Yoo; Jiyoun Kim; Seonhye Park; Areum Jun; Sivaprakash Sengodan; Junyoung Kim; Jeeyoung Shin; Hu Young Jeong; YongMan Choi; Guntae Kim; Meilin Liu

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Highly efficient and robust cathode materials for low-temperature solid oxide fuel cells: PrBa_0.5Sr_0.5Co_2?xFe_xO_5+δ

机译：用于低温固体氧化物燃料电池的高效耐用的阴极材料：PrBa _{0.5 Sr _{0.5 Co _{2？ x Fe _{x O _{5+ δ}}}}}

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Solid oxide fuel cells (SOFC) are the cleanest, most efficient, and cost-effective option for direct conversion to electricity of a wide variety of fuels. While significant progress has been made in anode materials with enhanced tolerance to coking and contaminant poisoning, cathodic polarization still contributes considerably to energy loss, more so at lower operating temperatures. Here we report a synergistic effect of co-doping in a cation-ordered double-perovskite material, PrBa_0.5Sr_0.5Co_{2? x}Fe _x O_5+δ, which has created pore channels that dramatically enhance oxygen ion diffusion and surface oxygen exchange while maintaining excellent compatibility and stability under operating conditions. Test cells based on these cathode materials demonstrate peak power densities ~2.2?W cm?2 at 600°C, representing an important step toward commercially viable SOFC technologies.

机译：固体氧化物燃料电池（SOFC）是最清洁，最有效和最具成本效益的选择，可以直接将多种燃料转化为电能。尽管在增强焦化和污染物中毒耐受性的阳极材料方面已取得重大进展，但阴极极化仍对能量损失做出了很大贡献，在较低的工作温度下尤其如此。在这里，我们报道了在阳离子有序双钙钛矿材料PrBa _{0.5 Sr _{0.5 Co _{2？中共掺杂的协同效应？ x Fe _{x O _{5 +δ，它产生的孔道可显着增强氧离子扩散和表面氧交换，同时在操作条件下保持出色的相容性和稳定性。基于这些阴极材料的测试电池在600°C时显示出约2.2？W cm ？2 的峰值功率密度，这是向商业可行的SOFC技术迈出的重要一步。}}}}}

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《Scientific reports.》 |2013年第1期|共页
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Sihyuk Choi; Seonyoung Yoo; Jiyoun Kim; Seonhye Park; Areum Jun; Sivaprakash Sengodan; Junyoung Kim; Jeeyoung Shin; Hu Young Jeong; YongMan Choi; Guntae Kim; Meilin Liu;
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1. Thermal and electrochemical properties of PrBa_(0.5)Sr_(0.5)Co_(2-x)Fe_xO_(5+δ)(x = 0.5,1.0,1.5) cathode materials for solid-oxide fuel cells [J] . Long Jiang, Tao Wei, Rui Zeng, Journal of power sources . 2013,第juna15期

机译：固体氧化物燃料电池用PrBa_（0.5）Sr_（0.5）Co_（2-x）Fe_xO_（5 +δ）（x = 0.5,1.0,1.5）阴极材料的热和电化学性质
2. Investigation on the oxygen reduction reaction mechanism of PrBa_(0.5)Sr_(0.5)Co_(1.5)Fe_(0.5)O_(5+δ)@La_2NiO_(4+δ) core-shell structure cathode for solid oxide fuel cells [J] . Li Jin, Liu Bo, Jia Lichao, International journal of hydrogen energy . 2019,第48期

机译：固体氧化物燃料电池PrBa_（0.5）Sr_（0.5）Co_（1.5）Fe_（0.5）O_（5 +δ）@ La_2NiO_（4 +δ）核壳结构阴极的氧还原反应机理研究
3. Microstructure optimization for high-performance PrBa_(0.5)Sr_(0.5)Co_(1.5)Fe_(0.5)O_(5+δ~-)-La_2NiO_(4+δ) core-shell cathode of solid oxide fuel cells [J] . Li Jin, Qiu Peng, Xia Meng, Journal of power sources . 2018,第MARa1期

机译：固体氧化物燃料电池高性能PrBa_（0.5）Sr_（0.5）Co_（1.5）Fe_（0.5）O_（5 +δ〜-）-La_2NiO_（4 +δ）核-壳阴极的微观结构优化
4. Preparation and Properties of PrBa_(0.5)Sr_(0.5)Co_(1.5)Fe_(0.5)O_(5+δ) as Novel Oxygen Electrode for Solid Oxide Electrolysis Cells [C] . Y. F. Tian, D. Yan, B. Chi, International Symposium on Solid Oxide Fuel Cells . 2017

机译：PrBA_（0.5）Sr_（0.5）CO_（1.5）Fe_（0.5）O_（0.5）O_（5 +δ）作为用于固体氧化物电解细胞的新型氧电极的PRBA_（0.5）CO_（1.5）FE_（5 +δ）的性质
5. Direct utilization of alcohol fuels by Sr2Fe 1.5Mo0.5O6-delta solid oxide fuel cell anodes. [D] . Bode, Gregory. 2016

机译：Sr2Fe1.5Mo0.5O6-δ固体氧化物燃料电池阳极可直接利用酒精燃料。
6. Highly efficient and robust cathode materials for low-temperature solid oxide fuel cells: PrBa0.5Sr0.5Co2−xFexO5+δ [O] . Sihyuk Choi, Seonyoung Yoo, Jiyoun Kim, -1

机译：用于低温固体氧化物燃料电池的高效耐用的阴极材料：PrBa0.5Sr0.5Co2-xFexO5 +δ
7. Highly efficient and robust cathode materials for low-temperature solid oxide fuel cells: PrBa0.5Sr0.5Co2-xFexO5+delta [O] . Choi Sihyuk, Yoo Seonyoung, Kim Jiyoun, 2014

机译：用于低温固体氧化物燃料电池的高效耐用的阴极材料：PrBa0.5Sr0.5Co2-xFexO5 +δ

Highly efficient and robust cathode materials for low-temperature solid oxide fuel cells: PrBa0.5Sr0.5Co2?xFexO5+δ

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Highly efficient and robust cathode materials for low-temperature solid oxide fuel cells: PrBa_0.5Sr_0.5Co_2?xFe_xO_5+δ