Membrane is one of the most important components in proton exchange membrane fuel
cells (PEMFCs), which determines the transport phenomena, performance, and durability …

This article provides a comprehensive and up-to-date perspective of the understanding of
perfluorosulfonic acid (PFSA) fuel cell membrane degradation phenomena, reviews key …

Proton exchange membrane (PEM) fuel cells are promising zero-emission power source for
automobiles, portable devices, backup power system and stationary applications. However …

One of the most important features of polymer electrolyte membrane (PEM) fuel cells is
durability. Improving fuel cell life and membrane electrode assemblies (MEA) durability …

Abstract In Proton Exchange Membrane Fuel Cells, local temperature is a driving force for
many degradation mechanisms such as hygrothermal deformation and creep of the …

Various research are currently done about fuel cells. They can concern the application
context, the fuel cell technology by itself or the socio-economic bolts. This paper deals with …

Great progress has been made on the research of proton exchange membrane fuel cell
(PEMFC) in the past 20 years, especially in the key materials and components such as …

Mechanical degradation occurs in fuel cell membranes due to the dynamic environmental
conditions of operational duty cycles, and is regarded as a critical determinant of fuel cell …

Chemical membrane degradation through the Fenton's reaction is one of the main lifetime‐
limiting factors for polymer‐electrolyte fuel cells. In this work, a comprehensive, transient …

In the proton exchange membrane fuel cell, proton exchange membrane (PEM) serves as
both the main conductor of protons and the fuel‐blocking membrane. Thus, high proton …