Stainless steel for cost-competitive bipolar plates in PEMFCs

policy, supplies, forecasts) cathode was supplied to the membrane, hut water supply from the cathode at high current densities decreased proportionately, and the net electroosmotic drag coefficient showed larger value. Economics, policy, supplies, forecasts 00/03457 Challenges for fuel cells as st

In this study, various multi-layered coatings were deposited on the stainless steel substrates by the cathodic arc deposition technique to enhance the corrosion resistance and electrical conductivity of the specimens which may be used as the metallic bipolar plates of PEMFC. The results showed that

In the present study, a multilayer composing of Cr 3 Ni 2 /Cr 2 N/CrN is sputtered onto stainless steel. The potential of using the coated stainless steel as the bipolar plate for polymer electrolyte membrane fuel cell (PEMFC) is evaluated. The coated stainless steel exhibits improved corrosion resi

## Abstract Stainless steels commonly used as bipolar plates in PEMFC may corrode and produce metallic ions in anodic and cathodic media. In order to avoid or to limit as low as possible these pollutions, which reduce the fuel cell efficiency, studies are performed to understand occurring phenomena

In this study, computer-aided design and manufacturing (CAD/CAM) technology were applied to develop and produce stainless steel bipolar plates for DMFC (direct methanol fuel cell). Effect of surface modification on the cell performance of DMFC was investigated. Surface modifications of the stainless