An advanced cathode design can improve the power performance and durability of proton
exchange membrane fuel cells (PEMFCs), thus reducing the stack cost of fuel cell vehicles …

The crucial component involved in a polymer electrolyte membrane (PEM) fuel cell stack is
the catalyst electrode material which performs a significant role in reaction kinetics and …

The stack degradation of a fuel cell system is a critical factor in ensuring the stack
performance and reliability of a fuel cell vehicle (FCV). In particular, the stack degradation …

Interface between the Nafion® ionomer on the high surface area carbon used as catalyst
support in the polymer electrolyte membrane fuel cell (PEMFC) electrodes has been studied …

The degradation of the catalyst layer significantly affects the gas transport and
electrochemical processes in the porous electrodes, thus affecting the performance of proton …

Improving fuel efficiency and performance in proton exchange membrane fuel cells is
closely linked to reducing electric resistance. This review discusses the vital role, behavior …

This research proposes a novel design of a millimeter-sized air-breathing proton exchange
membrane fuel cell (AB-PEMFC). The producing method of the air-breathing PEMFC …

We report on the employment of the electrochemical impedance spectroscopy (EIS) to
characterize catalyst coated membrane (CCM) electrode assemblies (MEA) as a function of …

The application of the simulated annealing method (SA) is proposed to agitate a two-phase,
two-dimensional (2D) material from a randomly aligned system in unidirectional bars to a …

Effective transport coefficient (ETC) of particulate composites is a crucial parameter in many
industrial applications. ETC is subject to many microstructural parameters of the system at …