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, ...

Chief Executive Officer Paul Mann provided an update on the company’s isotope production strategy and near-term commercialization plans during a presentation at the Emerging Growth Conference, ...

Lithium’s significance in the energy transition, often linked to electric vehicles (EVs) and energy storage, is unquestionable, but beyond its starring role in batteries, the critical mineral is ...

Stephen has degrees in science (Physics major) and arts (English Literature and the History and Philosophy of Science), as well as a Graduate Diploma in Science Communication. Stephen has degrees in ...

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 ...

Recently, Prof. XIAO Yilin's team from the University of Science and Technology of China (USTC), in collaboration with the Qinghai Institute of Salt Lakes, University of Pennsylvania and Nanning ...

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 ...

With its facility now live, EnergyX can internally produce a core component of its lithium separation technology portfolio at ...

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.” — ...

As the year comes towards its end, I wanted to personally write to you to summarize some of the more significant milestones the Company has achieved during 2024 and discuss our future goals for 2025.