引用本文:
Weilin Kong, Man Lian, Tong Sheng, Yarui Wang, Lu Zou, Kaisheng Xia, Jian Pu, Bo Chi, Yunfeng Tian. Unidimensional heterostructured LSCF-GDC nanofiber film as oxygen electrode for efficient solid oxide cell[J]. Chinese Journal of Structural Chemistry,
2026, 45(2): 100770.
doi:
10.1016/j.cjsc.2025.100770
Citation: Weilin Kong, Man Lian, Tong Sheng, Yarui Wang, Lu Zou, Kaisheng Xia, Jian Pu, Bo Chi, Yunfeng Tian. Unidimensional heterostructured LSCF-GDC nanofiber film as oxygen electrode for efficient solid oxide cell[J]. Chinese Journal of Structural Chemistry, 2026, 45(2): 100770. doi: 10.1016/j.cjsc.2025.100770
Citation: Weilin Kong, Man Lian, Tong Sheng, Yarui Wang, Lu Zou, Kaisheng Xia, Jian Pu, Bo Chi, Yunfeng Tian. Unidimensional heterostructured LSCF-GDC nanofiber film as oxygen electrode for efficient solid oxide cell[J]. Chinese Journal of Structural Chemistry, 2026, 45(2): 100770. doi: 10.1016/j.cjsc.2025.100770
Unidimensional heterostructured LSCF-GDC nanofiber film as oxygen electrode for efficient solid oxide cell
摘要:
Nanofibers hold great promise as oxygen electrode materials in solid oxide cells (SOCs). However, conventional fabrication methods—such as slurry processing and high-temperature sintering—inevitably disrupt their delicate nano-architectures. Here, we propose an innovative self-assembly strategy mediated by current polarization to construct La0.6Sr0.4Co0.2Fe0.8O3-δ-Gd0.1Ce0.9O2-δ (LSCF-GDC) nanofiber composite film electrodes. This approach largely preserves the fibrous morphology while promoting coherent heterointerfaces, abundant active sites, and efficient electron/ion pathways. Benefiting from this tailored architecture, the electrode achieves a low polarization resistance of 0.117 Ω cm2 and a peak power density of 1.482 W cm-2 at 800 °C. Moreover, in CO2 electrolysis mode, it delivers an impressive current density of 2.30 A cm-2 at 1.8 V. These results establish nanofiber heterostructure films, enabled by current polarization assembly, as a powerful strategy to simultaneously enhance activity, durability, and mass transport, offering new opportunities for high-performance intermediate-temperature SOCs.
English
Unidimensional heterostructured LSCF-GDC nanofiber film as oxygen electrode for efficient solid oxide cell
Abstract:
Nanofibers hold great promise as oxygen electrode materials in solid oxide cells (SOCs). However, conventional fabrication methods—such as slurry processing and high-temperature sintering—inevitably disrupt their delicate nano-architectures. Here, we propose an innovative self-assembly strategy mediated by current polarization to construct La0.6Sr0.4Co0.2Fe0.8O3-δ-Gd0.1Ce0.9O2-δ (LSCF-GDC) nanofiber composite film electrodes. This approach largely preserves the fibrous morphology while promoting coherent heterointerfaces, abundant active sites, and efficient electron/ion pathways. Benefiting from this tailored architecture, the electrode achieves a low polarization resistance of 0.117 Ω cm2 and a peak power density of 1.482 W cm-2 at 800 °C. Moreover, in CO2 electrolysis mode, it delivers an impressive current density of 2.30 A cm-2 at 1.8 V. These results establish nanofiber heterostructure films, enabled by current polarization assembly, as a powerful strategy to simultaneously enhance activity, durability, and mass transport, offering new opportunities for high-performance intermediate-temperature SOCs.
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Key words:
- LSCF-GDC nanofiber film
- / Oxygen electrode
- / Heterointerface
- / Current polarization
- / Solid oxide cells
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