Hydrogen technologies will become more prominent in the next coming years, in particular
systems operating at close to ambient temperature, in the context of sustainability and …

Sustainable hydrogen (H2) production via water electrolysis is one of the most critical
pathways to decarbonize the chemical industry. Among various electrolyzer technologies …

In this work, we investigated the influence of the solvents used in the catalyst ink on
performance of the proton exchange membrane fuel cells (PEMFCs). The mobility of the …

A new proton exchange membrane fuel cell catalyst paste based on direct screen printing
was developed to fabricate membrane electrode assembly (MEA) with catalyst coated …

Proton exchange membrane fuel cell (PEMFC) has reached the stage of early
commercialization, with attention now focused on manufacturing process. In this study decal …

Decal transfer is an effective method for fabricating membrane electrode assemblies
(MEAs), due to its low interfacial resistance and applicability for mass production. Here we …

Membrane electrode assembly (MEA), which contains cathode and anode catalytic layer,
gas diffusion layers (GDL) and electrolyte membrane, is the key unit of a PEMFC. An attempt …

Electrodes for polymer electrolyte membrane electrolyzers and fuel cells are manufactured
by coating a catalyst dispersion, consisting of precious metal, ionomer and solvents, onto a …

The catalyst layer (CL) is the most important component in proton exchange membrane fuel
cell (PEMFC) performance. Owing the properties of proton exchanging of Nafion, catalytic …

Proton-exchange membrane fuel cells (PEMFCs) are considered to be a promising
technology for clean and efficient power generation in the twenty-first century. To be …