How a new extraction process could unlock the world’s lithium

Climate change and energy How a new extraction process could unlock the world’s lithium Startup Rock Zero is commercializing the research, which could cut costs and carbon emissions from lithium production. By Casey Crownhart archive page May 28, 2026 Greenbushes Lithium Operations in Australia is the largest hard-rock lithium mine in the world. Adobe Stock EXECUTIVE SUMMARY Researchers say they’ve found a new way to extract lithium, a crucial metal used in the lithium-ion batteries that power electric vehicles and energy storage arrays. This new technique could be more environmentally friendly and cheaper than existing ones. The research was published today in Science, and a startup called Rock Zero is working to commercialize the process. “At scale, we believe this will be the lowest-cost way of sourcing lithium in the world,” says Yet-Ming Chiang, one of the study authors, who is an MIT professor and a serial entrepreneur behind climate tech companies including Form Energy and Addis Energy . The most economical way to get lithium currently is to extract it from brine, salty water that’s pulled the metal out of rock over the course of millennia. But this technique is geographically limited and currently requires vast tracts of land for massive evaporation pools. The more common tactic is hard-rock mining, where large bodies of ore are blasted apart, cooked at high temperatures, and processed using dangerous chemicals. The researchers’ new method uses a weak acid to dissolve typically nonreactive silicate minerals. That frees not only the lithium but also other useful materials, including alumina and silica. The origin story for this research, and the resulting company, came from another startup founded by Chiang, Sublime Systems , which makes cement using electrochemistry. The team was trying to find a source of highly reactive silica in order to form stronger cement. One way to make reactive materials, which can bond easily with other materials, is to take a nonr