Membrane materials are of fundamental importance for fuel cells, even giving their name to the specific type of fuel cell, as is the case for Proton Exchange Membrane (PEM) fuel cells. Typically, ...

Proton exchange membrane fuel cells (PEMFCs) represent a promising pathway towards a cleaner and more sustainable energy future. By utilising a specialised polymer membrane that facilitates proton ...

Maritime transport represents 2% of the global greenhouse gas emissions. Ammonia and methanol are the most promising carriers being explored for its decarbonization. H2SITE has produced pure hydrogen ...

One of the primary challenges when it comes to ensuring the efficient operation of Proton Exchange Membrane (PEM) hydrogen cells is maintaining an optimal distribution of liquid water within the cell ...

The global transition to a hydrogen-based clean energy economy faces a critical bottleneck: current proton exchange membrane ...

MISSISSAUGA, Ontario, Oct. 8, 2002 — With the use of noiseless, odourless, non-polluting fuel cell electric generating systems nearing commercialization, two leading technologies will be competing ...

The AEM water electrolyser cell works with a newly developed membrane electrode (MEA) that is directly coated with a nickel-based anode catalyst. Its molecular mode of action has been elucidated, and ...

Carbon ID hydrogen fuel cell bipolar plates for aerospace combine contradictory properties for a corrosion-free alternative ...

A South Korean research team has developed a new membrane for water electrolysis that operates stably even under low-alkaline ...

High temperature proton exchange membrane fuel cells (HT-PEMFCs) represent a promising class of electrochemical devices that operate above 120 °C, thereby simplifying water management and enhancing ...