Duke University researchers reveal boron controls pH in lithium-rich brines, offering insights to improve lithium extraction.

Lightweight, powerful lithium-ion batteries are crucial for the transition to electric vehicles, and global demand for ...

Much of the world's lithium occurs in salty waters with fundamentally different chemistry than other naturally saline waters ...

At Emerson Exchange 2025 in San Antonio, Texas, Gabriel Carrizo, electronics engineer, Rio Tinto; Leonel Brunet, senior ...

After decades understanding pH controls boron speciation in seawater and other saline waters it turns out the opposite is ...

E3 Lithium has successfully produced battery-quality lithium carbonate from Leduc brines using demonstration-scale equipment operated in its laboratory in Calgary, Alberta, Canada. The production ...

A trove of lithium-rich brine exists underground in Bolivia. Researchers conducted the first comprehensive chemical analysis of wastewater associated with mining ... Quality at the Duke University ...

The need for sustainable lithium extraction techniques is being driven by the growing demand for renewable energy technologies and EVs. Conventional methods, such as mining hard-rock ores and ...

The initial focus was on combining E3 Lithium’s concentrate production flow sheet with Pure Lithium’s exclusive Brine to Battery technology to manufacture high-quality lithium metal batteries.

In the spectacular multicolored mountains of the lower Andes, el agua es vida — water is life. During Carnaval, women poured ...

While Rio Tinto has been signalling an inclination to favour lithium brine over spodumene, Australia's hard rock miners ...

Mining lithium from salt pans traditionally involves pumping natural brine from underground into a series of shallow, above-ground ponds. Liquid evaporates from successive ponds, leaving behind ...