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Emerging technology could help extract lithium from new sources by Staff Writers Chicago IL (SPX) Jul 27, 2022
As more drivers adopt plug-in hybrid and electric vehicles, the demand for lithium-ion batteries will continue to explode over the next decade. But processes for extracting lithium can be time-consuming and chemical-intensive, and traditional sources-including brine and hard rock-could ultimately be depleted. Scientists and engineers are now looking to unconventional water sources, including oil- and gas-produced water, geothermal brines, and rejected brines from seawater desalination. But how much lithium lies within these sources, and how to best extract it, remains an open question. Asst. Prof. Chong Liu's team now has the answer. By analyzing more than 122,000 unconventional water sources, she and her team discovered that there is, in fact, enough lithium within these sources to make it worthwhile to extract. They also found that the composition of these sources-the amount of sodium, magnesium, potassium, and calcium-can affect extraction performance of an emerging technology, providing key insights for refining and optimizing it. The results were published in the Proceedings of the National Academy of Sciences. "I hope these results will encourage others to study lithium extraction, especially to find better materials that can increase lithium selectivity," Liu said.
Finding the right sources and materials But these water sources also contain ions that are very similar to lithium ions in both mass and charge, namely sodium, magnesium, potassium, and calcium. The team wanted to better understand how the network of these ions affects electrochemical intercalation selectivity of lithium. They found that sodium acts as a competitor for storage sites within the material framework, while magnesium and calcium can affect the charge transfer of lithium, affecting how selective the material ultimately is. "This shows that the key challenge of the electrochemical intercalation method is how to improve lithium selectivity compared to sodium," Liu says. "We show that is the main concern that scientists should consider going forward." Liu hopes these results will inspire scientists and engineers to identify materials that can increase lithium selectivity, and she and her team are also studying materials for this purpose. "We have better defined the playground, and now more people can join in and study lithium extraction," she said.
Research Report:Defining the challenges of Li extraction with olivine host: the roles of competitor and spectator ions
Floors in ancient Greek luxury villa were laid with recycled glass Odense, Denmark (SPX) Jul 26, 2022 Although this 1700 years old luxury villa was excavated and examined both in 1856 and in the 1990s, it still has secrets to reveal. New secrets have now been revealed by an international research team, with Professor and expert in archaeometry, Kaare Lund Rasmussen from University of Southern Denmark leading the so called archaeometric analyses: using chemical analysis to determine which elements an object was made of, how it has been processed, etc. Others in the team are Thomas Delbey from ... read more
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