Columbia engineers create faster method to extract lithium

Researchers at Columbia Engineering have developed a new technique to pull lithium from underground brines more quickly and with less environmental harm. The approach uses a temperature-sensitive solvent and avoids the large evaporation ponds common in current production.

The method, called switchable solvent selective extraction or S3E, works by absorbing lithium and water from brines at room temperature. Heating the solvent then releases purified lithium while allowing the material to be reused. Tests showed extraction rates up to 10 times higher for lithium than for sodium and 12 times higher than for potassium.

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Photorealistic illustration of Appalachian Mountains with lithium mining operations and resource estimates for a news article.
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USGS estimates Appalachian lithium resources could offset U.S. imports for more than three centuries

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The U.S. Geological Survey says the Appalachian region contains an estimated 2.3 million metric tons of undiscovered, economically recoverable lithium—an amount it calculates could replace about 328 years of U.S. lithium imports at 2024 levels.

Researchers at the University of Rochester have created a solar-powered system that converts seawater into fresh water while avoiding the production of harmful liquid brine. The technology uses laser-textured panels to evaporate water and collect salts as solids.

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Prospect Lithium Zimbabwe exported the first lithium sulphate produced on the continent from its Arcadia mine near Harare last month. The shipment follows a government ban on raw mineral exports introduced in February.

Scientists at Osaka Metropolitan University have developed an artificial photosynthesis device that converts sunlight, water, and carbon dioxide into formic acid without using batteries. The self-regulating electrolyzer adjusts automatically to changing light levels, simplifying the process and cutting costs.

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A cross-sector team from Northwest Normal University and Gansu Zhulong Technology unveiled a new carbon-14 nuclear battery and silicon carbide transducer on Monday, developed entirely with domestic technology and parts.

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