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High-performance novel anode-supported microtubular protonic ceramic fuel cells via highly efficient and simplified extrusion technology

Energy Materials [2025]
Zichen Zhuang, Zuzhi Huang, Xiaoyu Zhang, Kui Liu, Guozhu Zheng, Ting Chen, Ruili Sun, Lang Xu, Shaorong Wang
ABSTRACT

Protonic ceramic fuel cells (PCFCs) are regarded as efficient energy conversion devices for addressing the challenges of carbon neutrality, which can directly convert the chemical fuel energy into electricity at reduced operating temperatures below 700 °C. However, the insufficient strength and immature preparation processes of PCFCs limit their practical application. In this work, the novel anode-supported microtubular PCFCs with a tube diameter of less than 5 mm were successfully prepared by extrusion technology combined with a dip-coating method. The newly developed BaZr0.4Ce0.4Y0.1Gd0.1O3-δ (BZCYG4411) proton-conducting electrolyte was synthesized using an extremely simple and efficient one-step solid-state reaction method, showing comparable electrical conductivity with BaZr0.4Ce0.4Y0.1Yb0.1O3-δ (BZCYYb4411) and BaZr0.1Ce0.7Y0.1Yb0.1O3-δ (BZCYYb1711) electrolytes, as well as excellent chemical stability. The single cell with Ba2Sc0.1Nb0.1Co1.5Fe0.3O6-δ (BSNCF) cathode exhibited a high peak power density of 906.86 mW cm-2 at 700 °C. Additionally, this microtubular PCFC demonstrated excellent stability after about 103 h durability test at a constant current of 0.5 A cm-2 at 650 °C. This study provides a highly efficient and simplified technology for fabricating high-performance and durable anode-supported microtubular PCFCs.

MATERIALS

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