Under the threat of climate change and geopolitical tensions related to fossil fuels, the world faces an urgent need to find ...

The main problem with traditional doping methods, like Sm 3+ doping CeO 2 (SDC), was that they did not allow enough ionic conductivity. Co-doping Sm 3+ and Cu 2+, on the other hand, does not just add ...

The world of fuel cells just got a jolt thanks to researchers from the Technical University of Denmark (DTU). The team has been hard at work developing a new technology that could completely change ...

5 November – Australia’s Ceramic Fuel Cells Ltd (CFCL) has this week enhanced its international position with progress on a number of fronts – AIM admission, trade delegations and presentations of its ...

Environmental pollution and resource scarcity have become critical global concerns, driving the urgent need to develop and deploy efficient clean energy technologies. Solid oxide cells (SOCs) ...

Kyushu University scientists have achieved a major leap in fuel cell technology by enabling efficient proton transport at just 300°C. Their scandium-doped oxide materials create a wide, soft pathway ...

Researchers have developed a new catalyst design capable of pushing the projected fuel cell catalyst lifespans to 200,000 hours. The research marks a significant step toward the widespread adoption of ...

What if the future of aviation didn’t rely on heavy lithium-ion batteries or complex hydrogen systems, but instead on a fuel as simple and abundant as sodium? At MIT, researchers are turning this bold ...

Groton-based Nimbus Power Systems Inc. has developed a fuel cell technology that can be used for space travel through a collaboration with a Jeff Bezos-owned aerospace company, Blue Origin. Fuel cells ...

HyAxiom, which earlier this year installed four stationary fuel cells on the southeastern side of the University of Hartford's campus, will build the fuel cells for a fuel cell project in Bridgeport.