Porous Transport Layers Made of Niobium/Steel Composites for Water Electrolysis

Daudt, Natalia; Hackemüller, Franz Josef; Bram, Martin

Contribution to a conference proceedings

FZJ-2020-03926

Porous Transport Layers Made of Niobium/Steel Composites for Water Electrolysis

Daudt, N. ; Hackemüller, F. J.FZJ* ; Bram, M. (Corresponding author)FZJ*

2020

EURO PM 2020, online, Portugal, 5 Oct 2020 - 7 Oct 2020 4848310 pp. (2020)

Please use a persistent id in citations: http://hdl.handle.net/2128/26224

Abstract: In future energy concepts, water splitting by polymer electrolyte membrane (PEM) electrolysis is a key technology for converting regenerative energy from wind or sun into hydrogen. In this study, a novel porous transport layer for PEM electrolysis units was developed, which is based on a stainless steel substrate coated with a porous Nb layer. Nb layer is expected to improve the electrochemical performance and lifetime of electrolysis cells due to formation of a stable passivation layer with good electrical conductivity. Scalable powder metallurgical techniques like tape casting, screen printing and field assisted sintering/spark plasma sintering FAST/SPS were used for manufacturing this composite structure. The porous transport layer was characterized with respect to microstructure. FAST/SPS was found to be promising to decrease interdiffusion at the interface. Finally, first electrochemical tests were conducted on laboratory scale demonstrating the potential of the composite to replace state-of-the-art titanium-based transport layers.

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