The lightest of all elements, hydrogen, is in great demand due to its promising role as a sustainable resource in the energy transition. A team from Leipzig University and TU Dresden, as part of the ...

Hydrogen isotope separation and catalytic exchange processes represent a critical area of research in both energy and environmental science. These techniques focus on distinguishing isotopes of ...

Hydrogen is in great demand due to its promising role as a sustainable resource in the energy transition. Researchers have made an important breakthrough in the efficient and cost-effective provision ...

A study by scientists at Hunan University introduces a new hydrogen isotope separation method that leverages proton quantum ...

As part of the Hydrogen Isotopes 1,2,3H Research Training Group, a team from Leipzig University and TU Dresden has made a significant advancement in the effective and economical provision of isotopes, ...

Deuterium can be electrochemically separated from ordinary hydrogen far more efficiently than current techniques using a ‘through barrier’ effect. The work, which achieves a record-breaking separation ...

Starship Enterprise flew through the galaxy using deuterium as fuel. Even if this was science fiction from the 1960s and 70s, research on the real application of the hydrogen isotope for energy ...

Researchers have presented a method that allows the heavier hydrogen 'brother' deuterium to be introduced specifically into many different molecules. The deuterated compounds obtained in this way are ...

Theoretical physics last week again proved that it has substance. The lightest element, hydrogen, has an atomic weight of 1.0078. The helium atom, next lightest in the table of elements, weighs 4.002.