The technology helps evaporation ponds produce more minerals by using more sunlight, making it faster to get lithium, nitrate ...

Lithium metal has shown great promise as an anode material for high-energy storage systems, owing to its high theoretical specific capacity and low negative electrochemical potential ...

Lithium nitrate, which is known to improve battery life, and lithium polysulfide, which can break down lithium, held the key. The team tested different mixes until they found the right proportions ...

One additive, lithium nitrate has been researched in the past as a way to boost battery performance. The second additive used in the study is lithium polysulfide, which is seen as a contaminant in ...

They discovered that when lithium nitrate, a chemical already studied as a performance enhancer, is mixed with lithium polysulfide, an unexpected reaction occurs. Lithium polysulfide is regarded ...

The solution, the DGIST scientists have found, may lie in the addition of lithium nitrate. Pre-planting the compound during the fabrication process allowed the team to create ultra-thin lithium ...

With roots in fundamental research conducted at Princeton, a new startup is upending decades-old approaches for the way the world extracts lithium and other materials, including nitrate and potash.

Sociedad Quimica y Minera de Chile SA engages in the production and distribution of fertilizers, potassium nitrate, iodine, and lithium chemicals. It operates through the following segments ...

These ponds currently generate around 40 per cent of the world’s lithium and most of its naturally occurring nitrate. Now, Princeton Critical Minerals has developed a black disc with an anti-fouling ...