卤水
镁
蒸发器
二价
化学工程
化学
膜
海水淡化
正渗透
蒸发
渗透
选择性
膜技术
锂(药物)
材料科学
无机化学
反渗透
锰
毛细管作用
钙
涂层
作者
Aydin Eskafi,Wenli Jiang,Jeffrey J. Urban,Baoxia Mi
出处
期刊:Science Advances
[American Association for the Advancement of Science]
日期:2026-05-20
卷期号:12 (21): eaed0975-eaed0975
标识
DOI:10.1126/sciadv.aed0975
摘要
A reliable supply of lithium is required to meet the increased demand for batteries over the coming decades. In this work, we demonstrated the potential to effectively extract lithium from brines by coupling solar-powered evaporation, adsorption, and membrane technologies together. We first synthesized a three-dimensional adsorptive evaporator by coating a lithium manganese oxide material onto a cotton stick using an easily scalable, one-step method. An osmotic membrane was then installed at the root of the evaporator to enhance the lithium to magnesium selectivity, prevent scaling caused by divalent cations, and thus further increase the water evaporation flux. The operation of the dual membrane-adsorption evaporator is entirely driven by osmosis and capillary force, demanding no extra energy input. The integration of the osmotic membrane was found to increase the lithium to magnesium selectivity over 10-fold to higher than 40. The dual process also produced high lithium to calcium selectivity and proved to sustain long-term stability by self-managing its internal osmotic pressure. Last, a test was done in three simulated brine solutions with varied brine chemistry and the evaporation rate stayed high and consistent throughout the long-term test. This illustrates that this technology can be used in varied brine solutions throughout the world providing efficient lithium capture and separation from competing divalent cations.
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