The proton exchange membrane (PEM) fuel cell is an ideal automotive power source with
great potential, owing to its high efficiency and zero emissions. However, the durability and …

Low temperature water electrolysers such as Proton Exchange Membrane Water
Electrolysers (PEMWEs), Alkaline Water Electrolysers (AWEs), and Anion Exchange …

This study provides an analysis of the technological barriers for all-electric vehicles, either
based on batteries (BEVs) or on H 2-powered proton exchange membrane (PEM) fuel cells …

To increase the commercialization of fuel cell electric vehicles, it is imperative to improve the
activity and performance of electrocatalysts through combined efforts focused on material …

In situ electrochemical diagnostics designed to probe ionomer interactions with platinum
and carbon were applied to relate ionomer coverage and conformation, gleaned from anion …

A long-term dynamic load cycle is performed on state-of-the-art membrane electrode
assemblies, aiming to evaluate the degradation mechanisms of Polymer Electrolyte …

The proton exchange membrane fuel cell (PEMFC) has a significant potential in
transportation, backup, and portable power applications, although there still are remaining …

Polymer electrolyte membrane (PEM) fuel cells are a promising technology for automotive
applications. To achieve the cost versus durability required for the commercialization of this …

Our progressive transition from a society energetically dependent on fossil fuels towards one
relying on renewable sources requires novel, environmentally friendly energy conversion …

The recovery of performance losses in polymer electrolyte membrane fuel cells due to
reversible degradation phenomena is an important topic to enable high system efficiency …