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 ...

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

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 ...

The material’s high proton conductivity and chemical stability at temperatures of 200–500 °C can pave the way for more durable fuel cells Fuel cells offer a promising solution for clean energy by ...

The Catalonia Institute for Energy Research (IREC) has launched Merce Lab, a ceramic 3D printing plant to manufacture ...

Scientists from the Tokyo Institute of Technology (Tokyo Tech) and High Energy Accelerator Research Organization (KEK) have developed a highly oxygen-deficient perovskite for protonic ceramic fuel ...

In a study recently published in The Frontiers in Energy, researchers from Fuzhou University presented a novel approach to improving the efficiency of direct ammonia protonic ceramic fuel cells ...