Defect-induced pyrochlore Pr2Zr2O7 cathode rich in oxygen vacancies for direct ammonia solid oxide fuel cells

In this study, pyrochlore Pr2B2O7 oxides (BZr, ZrSn, Sn, PZO/PZSO/PSO) and perovskite (BTi, PTO) were prepared as direct ammonia solid oxide fuel cell (DA-SOFC) cathode with oxygen reduction reaction activity induced by B-site cationic defects. Compared with PTO, the pyrochlore PBO with unoccupied 8...

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Bibliographic Details
Published in:Journal of power sources 2022-02, Vol.520, p.230847, Article 230847
Main Authors: Zhong, Fulan, Yang, Shiqing, Chen, Chongqi, Fang, Huihuang, Chen, Kongfa, Zhou, Chen, Lin, Li, Luo, Yu, Au, Chaktong, Jiang, Lilong
Format: Article
Language:English
Subjects:
B-site cationic defects
Direct ammonia solid oxide fuel cell (DA-SOFC)
Oxygen reduction reaction
Oxygen transport
Pr2B2O7
Pyrochlore
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Summary:In this study, pyrochlore Pr2B2O7 oxides (BZr, ZrSn, Sn, PZO/PZSO/PSO) and perovskite (BTi, PTO) were prepared as direct ammonia solid oxide fuel cell (DA-SOFC) cathode with oxygen reduction reaction activity induced by B-site cationic defects. Compared with PTO, the pyrochlore PBO with unoccupied 8a-oxygen sites are high in inherent oxygen vacancies (ca. 12.5%), leading to enhanced migration of lattice oxygen. Among the n-type semiconductors, PZO is with a more negative flat-band potential and is more effective in terms of overcoming energy barriers. As a result, the conductivity of PZO is two orders of magnitude higher than that of PTO at 800 °C. The oxygen transport performance reveals that the surface exchange coefficient of PZO is about one order of magnitude higher than that of La0.7Sr0.3MnO3-δ at 900 °C. Owing to high conductivity, fast oxygen transport, and matched thermal expansion coefficient, an anode-supported DA-SOFC using the PZO-based cathode can offer a maximum power density of 0.25 W cm−2 at 600 °C and 1.22 W cm−2 at 800 °C, operating continuously over 100 h without obvious degradation. The electrochemical performance is 2.3 folds higher than those of SOFCs using other PBO-based cathode, and higher than most reported SOFCs with the cathodes using A-site Pr. •Pr2B2O7 evolution to oxygen vacancy-rich pyrochlore by B-site radius regulation.•First design non-noble metal-based pyrochlore PZO cathode for DA-SOFC.•PZO with B-site cationic defects displays enhanced ion and electron transport.•DA-SOFC with PZO-based cathode offers 1.22 W cm−2 at 800 °C and 0.25 W cm−2 at 600 °C.
ISSN:0378-7753
1873-2755
DOI:10.1016/j.jpowsour.2021.230847