Investigation of active carbon for fuel-cell electrodes

Carbon has desirable properties which recommend its utilization as a fuel cell electrode material. Good electrical conductivity and chemical resistance to attack by both acid and alkaline electrolytes coupled with a low inherent cost make carbon attractive as a porous substrate for a diffusion-type

Electrically active impurities are known to affect the transport properties of graphite. With regard to substitutional impurities such as boron, there has been relatively little work done owing to severe difficulties in attempting to incorporate uniform and controllable amounts of boron into the gra

High-activity platinized-carbon anodes for methanol oxidation have been prepared. XPS investigation of the electrodes showed the presence of both Pt" and oxidized Pt species. The enhanced activity of these electrodes, compared with Pt black, can be explained in terms of the unusual surface propertie

The general topic of these articles is PEM fuel cell electrode materials. In this domain, a major contribution, which would be paramount for the future success of PEM fuel cell technology, is the development of new non-noble metal electrodes. However, at a current working temperature of 90 °C, this

## Abstract The performance of anode‐supported cells with a composite LSM‐YSZ cathode and an LSM current collector was investigated. Over the first 48 hours, after the application of a constant current, the cell voltage was observed to increase by up to 20%. When the current was switched off, the c