Bismuth oxide-based solid oxide fuel cells (SOFCs) represent a promising technology for clean energy conversion, utilising the exceptional ionic conductivity of δ-Bi₂O₃. The unique crystal structure ...

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

Hydration significantly boosts ion conductivity in Ba 7 Nb 4 MoO 20, a promising ceramic electrolyte candidate for low-temperature solid oxide fuel cells, but its origin and mobile ionic species were ...

Methylcyclohexane (MCH), a type of organic hydride, is expected to be an excellent hydrogen carrier because it remains liquid at room temperature, is easy to transport, has low toxicity, and has a ...

Apatite-type lanthanum silicates have emerged as a promising class of oxide ion conductors for solid oxide fuel cells (SOFCs), offering a unique combination of high ionic conductivity and chemical ...

Solid oxide fuel cells (SOFCs) are electrochemical devices that use a solid ceramic electrolyte to conduct oxygen ions from the cathode to the anode, generating electricity through an electrochemical ...

In context: Unlike combustion power plants that burn fuel, solid oxide fuel cells like Bloom's directly convert chemical energy into electricity using an electrochemical process. This improves ...

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 ...

Solid oxide fuel cells (SOFCs) offer a clean alternative to fossil fuel-based power generation, but their high operating ...