A High-Performance and Durable Direct-Ammonia Symmetrical Solid Oxide Fuel Cell with Nano La 0.6 Sr 0.4 Fe 0.7 Ni 0.2 Mo 0.1 O 3-δ -Decorated Doped Ceria Electrode

A High-Performance and Durable Direct-Ammonia Symmetrical Solid Oxide Fuel Cell with Nano La 0.6 Sr 0.4 Fe 0.7 Ni 0.2 Mo 0.1 O 3-δ -Decorated Doped Ceria Electrode

Solid oxide fuel cells (SOFCs) offer a significant advantage over other fuel cells in terms of flexibility in the choice of fuel. Ammonia stands out as an excellent fuel choice for SOFCs due to its easy transportation and storage, carbon-free nature and mature synthesis technology. For direct-ammoni...

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Veröffentlicht in:Nanomaterials (Basel, Switzerland) Switzerland), 2024-04, Vol.14 (8)
Hauptverfasser: Jiang, Hao, Liang, Zhixian, Qiu, Hao, Yi, Yongning, Jiang, Shanshan, Xu, Jiahuan, Wang, Wei, Su, Chao, Yang, Tao
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container_issue 8
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container_title Nanomaterials (Basel, Switzerland)
container_volume 14
creator Jiang, Hao
Liang, Zhixian
Qiu, Hao
Yi, Yongning
Jiang, Shanshan
Xu, Jiahuan
Wang, Wei
Su, Chao
Yang, Tao
description Solid oxide fuel cells (SOFCs) offer a significant advantage over other fuel cells in terms of flexibility in the choice of fuel. Ammonia stands out as an excellent fuel choice for SOFCs due to its easy transportation and storage, carbon-free nature and mature synthesis technology. For direct-ammonia SOFCs (DA-SOFCs), the development of anode catalysts that have efficient catalytic activity for both NH decomposition and H oxidation reactions is of great significance. Herein, we develop a Mo-doped La Sr Fe Ni O (La Sr Fe Ni Mo O , LSFNM) material, and explore its potential as a symmetrical electrode for DA-SOFCs. After reduction, the main cubic perovskite phase of LSFNM remained unchanged, but some FeNi alloy nanoparticles and a small amount of SrLaFeO oxide phase were generated. Such reduced LSFNM exhibits excellent catalytic activity for ammonia decomposition due to the presence of FeNi alloy nanoparticles, ensuring that it can be used as an anode for DA-SOFCs. In addition, LSFNM shows high oxygen reduction reactivity, indicating that it can also be a cathode for DA-SOFCs. Consequently, a direct-ammonia symmetrical SOFC (DA-SSOFC) with the LSFNM-infiltrated doped ceria (LSFNM-SDCi) electrode delivers a superior peak power density (PPD) of 487 mW cm at 800 °C when NH fuel is utilised. More importantly, because Mo doping greatly enhances the reduction stability of the material, the DA-SSOFC with the LSFN-MSDCi electrode exhibits strong operational stability without significant degradation for over 400 h at 700 °C.
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Ammonia stands out as an excellent fuel choice for SOFCs due to its easy transportation and storage, carbon-free nature and mature synthesis technology. For direct-ammonia SOFCs (DA-SOFCs), the development of anode catalysts that have efficient catalytic activity for both NH decomposition and H oxidation reactions is of great significance. Herein, we develop a Mo-doped La Sr Fe Ni O (La Sr Fe Ni Mo O , LSFNM) material, and explore its potential as a symmetrical electrode for DA-SOFCs. After reduction, the main cubic perovskite phase of LSFNM remained unchanged, but some FeNi alloy nanoparticles and a small amount of SrLaFeO oxide phase were generated. Such reduced LSFNM exhibits excellent catalytic activity for ammonia decomposition due to the presence of FeNi alloy nanoparticles, ensuring that it can be used as an anode for DA-SOFCs. In addition, LSFNM shows high oxygen reduction reactivity, indicating that it can also be a cathode for DA-SOFCs. Consequently, a direct-ammonia symmetrical SOFC (DA-SSOFC) with the LSFNM-infiltrated doped ceria (LSFNM-SDCi) electrode delivers a superior peak power density (PPD) of 487 mW cm at 800 °C when NH fuel is utilised. 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title A High-Performance and Durable Direct-Ammonia Symmetrical Solid Oxide Fuel Cell with Nano La 0.6 Sr 0.4 Fe 0.7 Ni 0.2 Mo 0.1 O 3-δ -Decorated Doped Ceria Electrode
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