Simple and fast oxide catalyst coating technology improves solid oxide fuel cell performance threefold. Secured core technology applicable to a wide range of applications, from solid oxide fuel cells ...

Methylcyclohexane is very promising as a hydrogen carrier that can safely and efficiently transport and store hydrogen. However, the dehydrogenation process using catalysts has issues due to its ...

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 ...

Oxide ion conductors are pivotal materials in the development of solid oxide fuel cells (SOFCs), offering a robust platform for the efficient transport of oxygen ions through their crystal lattices.

Fuel cells are an efficient, clean alternative to traditional fossil-fuel-based energy systems. Solid oxide fuel cells (SOFCs) are especially attractive due to their ability to use multiple fuels, ...

Researchers found an ultrafast alternative to the slow oxide ion transfers of conventional fuel cells, increasing efficiency and performance by using hydrocarbon fuel directly. The commercial ...

The Korea Institute of Energy Research has developed a solid oxide electrolysis cell stack that uses a special kind of separator plate to ensure proper flow of hydrogen and oxigen after water ...

DTU researchers say a 3D printed ceramic gyroid fuel cell delivers a fivefold jump in power-to-weight. The work was done by the Technical University of Denmark (DTU Energy) and focuses on Solid Oxide ...

Researchers argue that progress in SOFCs and SOECs depends on linking materials, electrochemistry, and system engineering through a reverse-guided design strategy.

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 ...