Preparation of PtRu onto PEMs for DMFC anodes

A kinetic model for the anode processes in low temperature proton exchange membrane fuel cells with a Pt based anode is developed. The model is as simple as possible with the minimum number of parameters, and most are determined directly from density functional calculations of adsorption energies. I

A high-throughput screening device for fuel cell electrocatalysts was developed incorporating fuel cell design features. State-of-the-art MEA fabrication methods permitted catalyst testing with realistic reactant exposure histories and steadystate reaction conditions. Results are reported for testin

## Abstract The concept of bilayer anodes for improved reformate tolerance was analysed using model calculations. It was found that for a bilayer anode to give good results the catalyst in the layer adjacent to the backing should enable CO oxidation at low potentials and have a relatively low rate

## Abstract In this work, we synthesised the bimodal porous carbon supported electro‐catalyst as a novel catalyst for fuel cells. For this purpose, the bimodal porous carbons with different pore sizes were prepared by imprinting method. Three kinds of bimodal porous carbons were fabricated by using

An anode catalyst for a polymer electrolyte fuel cell must be CO-tolerant, that is, it must have the function of hydrogen oxidation in the presence of CO, because hydrogen fuel gas generated by the steam reforming process of natural gas contains a small amount of CO. In the present study, PtRu/C cat