Diversified Energy announced a strategic partnership with FuelCell Energy and TESIAC to address the energy needs of data ...

Scientists use light-emitting crystals and solar panels to turn the latent energy in nuclear waste into microbatteries.

Zero-emission electric bulkers are a step closer to becoming reality after receiving green lights from two of the world’s ...

The urgent need for sustainable energy solutions has intensified research into high-performance fuel cells and electrolysis cells. These technologies play a ...

FuelCell (FCEL) and Tesiac announced a strategic partnership intended to address the energy needs of data centers by ...

Researchers at the Princeton Plasma Physics Laboratory are exploring how deuterium, a potential fusion fuel, interacts with ...

The Energy Department, via the Lawrence Livermore National Laboratory, is boosting research into fusion energy.

Fuel cell electric vehicles use electricity to power an electric motor, just like a normal EV. However, FCEVs use hydrogen fuel cells to produce some of the electricity needed to power the vehicle ...

Deuterium also stands in for tritium in experiments In a commercial fusion system, the fuel will likely be made of deuterium and tritium, which are both forms of hydrogen. Tritium is radioactive ...

In a commercial fusion system, the fuel will likely be made of deuterium and tritium, which are both forms of hydrogen. Tritium is radioactive, but deuterium is not. So, the experiments used ...

To keep the system working efficiently, it’s important to know how much fuel might be trapped. “Understanding how boron coatings can interact with deuterium can help us improve materials for ...

To develop a practical fusion power system, scientists need to fully understand how the plasma fuel interacts with its surroundings. The plasma is superheated, which means some of the atoms ...