A research group led by Atsushi Noro at Nagoya University in Japan has announced a novel design concept for fuel cell electrolytes, utilizing a phosphonic acid polymer with hydrocarbon spacers. This ...

This innovative flexible membrane, derived from natural clay minerals, is fabricated using monolayer silicate nanosheets. It exhibits outstanding proton conductivity and superior hydrogen gas barrier ...

Tinius Olsen supports hydrogen fuel cell innovation through rigorous materials testing and industry collaboration.

Researchers demonstrate successive proton transport mechanism in a material that may be a future source of reliable primary and backup power. As far back as the 1930s, inventors have commercialized ...

A new high-temperature polymer fuel cell that operates at 80-160 degrees Celsius, with a higher-rated power density than state-of-the-art fuel cells, solves the longstanding problem of overheating, ...

The 6CXBS-GT engine has been swapped for a 250-kW electric powertrain for the prototype, and the Polymer Electrolyte Fuel Cell is made up of two modules, with eight hydrogen tanks aboard the vessel.

Fuel cells are becoming an increasingly popular alternative to combustion engines for clean power generation as countries and industries emphasize prioritizing the reduction of greenhouse gas ...

While fuel cells generate clean energy, fuel cell sensors generate precise measurements and are a gold standard for breath alcohol analysis.