With lithium-6 critical for fusion systems and no viable supply available, our breakthrough approach delivers much-needed volumes—giving early partners a decisive edge in clean energy innovation.” — ...

Lithium-6 is essential for producing nuclear fusion fuel, but isolating it from the much more common isotope, lithium-7, usually requires liquid mercury, which is extremely toxic. Now, researchers ...

ASP Isotopes Inc. (NASDAQ: ASPI) (“ASPI”) today announced that Quantum Leap Energy LLC (“QLE” or the “Company”), a wholly-owned subsidiary of ASPI dedicated to advancing innovative technologies and ...

A team of researchers working on water purification unexpectedly uncovered a breakthrough method for isolating lithium-6, a key isotope used in nuclear fusion fuel. Their discovery could provide a ...

The origin of lithium (Li), the third element of the periodic table, has long been shrouded in mystery. This element, commonly found in cosmic rays as two stable isotopes, 6 Li and 7 Li, is crucial to ...

Lithium isotope separation has emerged as a critical field in addressing both industrial and environmental challenges, particularly in the nuclear and energy sectors. Traditional methods—for instance, ...

ASP Isotopes Inc. (NASDAQ: ASPI) (“ASPI”) today announced its plans for Quantum Leap Energy LLC (“QLE” or the “Company”), a wholly-owned subsidiary of ASPI dedicated to advancing innovative ...

Lithium-6 is essential for producing nuclear fusion fuel, but isolating it from the much more common isotope, lithium-7, usually requires liquid mercury, which is extremely toxic. Now, researchers ...