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One of the biggest obstacles to the dissemination of fuel cells is their cost, a large part of which is due to platinum (Pt) electrocatalysts. Complete removal of Pt is a difficult if not impossible task for proton exchange membrane fuel cells (PEM-FCs). The anion exchange membrane fuel cell (AEM-FC) has long been proposed as a solution as non-Pt metals may be employed. Despite this, few examples of Pt-free AEM-FCs have been demonstrated with modest power output. The main obstacle preventing the realization of a high power density Pt-free AEM-FC is sluggish hydrogen oxidation (HOR) kinetics of the anode catalyst. Here we describe a Pt-free AEM-FC that employs a mixed carbon-CeO2 supported palladium (Pd) anode catalyst that exhibits enhanced kinetics for the HOR. AEM-FC tests run on dry H2 and pure air show peak power densities of more than 500 mW cm(-2) .

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Miles Page

Anion exchange membrane fuel cells: Current status and remaining challenges

Poly(aryl piperidinium) membranes and ionomers for hydroxide exchange membrane fuel cells

Durability challenges of anion exchange membrane fuel cells

Sb₂S₃-Sensitized Nanoporous TiO₂ Solar Cells

A Pd/C‐CeO₂ Anode Catalyst for High‐Performance Platinum‐Free Anion Exchange Membrane Fuel Cells

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Miles Page

Anion exchange membrane fuel cells: Current status and remaining challenges

Poly(aryl piperidinium) membranes and ionomers for hydroxide exchange membrane fuel cells

Durability challenges of anion exchange membrane fuel cells

Sb2S3-Sensitized Nanoporous TiO2 Solar Cells

A Pd/C‐CeO2 Anode Catalyst for High‐Performance Platinum‐Free Anion Exchange Membrane Fuel Cells

Contact Info

Product

Resources

About

Sb₂S₃-Sensitized Nanoporous TiO₂ Solar Cells

A Pd/C‐CeO₂ Anode Catalyst for High‐Performance Platinum‐Free Anion Exchange Membrane Fuel Cells