Effect of porous transport layer properties on the anode electrode in anion exchange membrane electrolyzers – New Paper.
Anion exchange membrane water electrolyzers (AEMELs) have recently received significant attention due to their potential advantages over existing commercial water electrolysis technologies.
However, AEM electrolyzers have not yet met performance and durability targets. One of the critical components in achieving high AEMEL performance is the porous transport layer (PTL) which serves many critical functions in the oxygen evolution reaction (OER) electrode.
In this study, several OER PTL attributes were investigated, including: material of construction, fabrication method, feature size, porosity/density, and thickness. It was found that higher porosity helped facilitate multiphase (O2, H2O, etc.) transport; however, as the porosity increased, the catalyst layer adhesion to the PTL decreased, the contact resistance with the bipolar plate increased and the cell operating voltage increased.
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It was found that nickel-based PTLs allowed for lower operating voltages than similarly-structured stainless steel PTLs. Improved operating voltages were achieved with both fiber felts and sintered structures by porosity optimization.
Furthermore, an increase in thickness did not affect transient voltage response, however, it had a negative effect on performance stability. The experimental findings presented here provide important insights for development of PTL materials and structures for efficient and low-cost water electrolysis.
Highlights:
- Design of porous transport layers (PTLs) for anion exchange membrane electrolyzers.
- Commercial and pre-commercial transport layers were investigated.
- Studies material, fabrication method, feature size, density, and thickness.
- Nickel-alloy PTLs result in lower operating voltage than stainless steel.
- Optimized PTL achieved performance of 1.64 V at 1.0 A/cm2 and <2.0 V at 3.5 A/cm2.
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Effect of porous transport layer properties on the anode electrode in anion exchange membrane electrolyzers, January 30, 2022
