【摘 要】
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Protonic ceramic electrolysis cells (PCECs),which permit high-temperature electrolysis of water,exhibit various advantages over conventional solid oxide electrolysis cells (SOECs),including cost-effectiveness and the potential to operate at low-/intermedi
【机 构】
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Laboratory of Electrochemical Devices Based on Solid Oxide Proton Electrolytes, Institute of High Te
论文部分内容阅读
Protonic ceramic electrolysis cells (PCECs),which permit high-temperature electrolysis of water,exhibit various advantages over conventional solid oxide electrolysis cells (SOECs),including cost-effectiveness and the potential to operate at low-/intermediate-temperature ranges with high performance and efficiency.Although many efforts have been made in recent years to improve the electrochemical characteristics of PCECs,certain challenges involved in scaling them up remain unresolved.In the present work,we present a twin approach of combining the tape-calendering method with all-Ni-based functional electrodes with the aim of fabricating a tubular-designed PCEC having an enlarged electrode area (4.6 cm2).This cell,based on a 25 μm-thick BaCe0.5Zr0.3DY0.2O3-δ proton-conducting electrolyte,a nickelbased cermet and a Pr1.95Ba0.05NiO4+δ oxygen electrode,demonstrates a high hydrogen production rate (19 mL min-1 at 600 ℃),which surpasses the majority of results reported for traditional button-or planar-type PCECs.These findings increase the scope for scaling up solid oxide electrochemical cells and maintaining their operability at reducing temperatures.
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