A new fuel cell electrolyte design using phosphonic acid polymers with hydrocarbon spacers allows efficient operation under high-temperature, low-humidity conditions.

A research group led by Atsushi Noro at Nagoya University in Japan has announced a novel design concept for fuel cell ...

Norwegian shipping hydrogen fuel cell pioneer Teco 2030 has admitted defeat in its efforts to continue operations. The ...

Nimbus Power Systems, Inc., a pioneering developer of advanced fuel cell technologies for heavy-duty vehicles, today ...

By incorporating nitrogen into the alloy structure, the team addressed the high cost and low durability of platinum (Pt) ...

A research group led by Atsushi Noro at Nagoya University in Japan has announced a novel design concept for fuel cell electrolytes, utilizing a ...

Researchers from Daegu Gyeongbuk Institute of Science and Technology created an innovative technology that significantly ...

Turning hydrogen or other gas into electricity that powers cars or industrial spaces is becoming increasingly popular with ...

Targeted are the proton exchange membrane (PEM) fuel cell, which dominates the market, and the direct methanol fuel cell ...

DGIST Prof. Jongsung Yu and colleagues enhance platinum-cobalt alloy durability to boost green fuel cell performance and sustainability - The study results published in the Journal of the American Che ...