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Highly efficient removal of trace thallium from surface water by Co@Fe Prussian blue analogue coated membrane

Zhu Xiong, Yuhang Cheng, Kaige Dong, Mahmud Sakil, Zhu Wang, Liguo Zhang, Tangfu Xiao, Gaosheng Zhang, Shuaifei Zhao

2024Separation and Purification Technology17 citationsDOIOpen Access PDF

Abstract

• We develop an adsorptive membrane for highly efficient Tl + removal; • The new membrane has superior removal efficiency for ultralow concentration of Tl + ; • Mechanisms on the superior Tl + removal efficiency of the membrane are explored; • Ion exchange and intercalation contribute to the highly efficient Tl + removal; • This study offers a solution for remedying ultralow Tl + contaminated surface water. Super trace thallium(I) (Tl + ) is still highly toxic and its removal from surface water is challenging. Here, we developed a new adsorptive membrane by immobilizing bimetal (cobalt and iron) Prussian blue analogues (Co@Fe-PBAs) on a polytetrafluoroethylene microporous membrane (Co@Fe-PBAs-M). The prepared membrane displayed precise adsorption of trace Tl + (50 μg/L) from complex water. A variety of interfering factors, such as water pH, competitive adsorption of positive ions (Na + and K + ) and negative ions (CO 3 2– and PO 4 3- ), natural organic matters (e.g., fulvic acid and bovine serum albumin) were evaluated during Tl removal. The composite membrane showed high removal efficiency (over 80 %) during long-term dynamic membrane separation of surface water containing super trace Tl + (<2.0 μg/L), breaking through the adsorption limitation in ultralow concentration of Tl + . The unique bimetal electron transfer of Co@Fe-PBAs-M reinforced the adsorptive performance to Tl + through dual ion exchange and intercalation. In the treatment of real Pearl River water containing 0.5 μg/L of Tl + , our membrane effectively reduced the Tl + concentration to 0.04 μg/L during 6-h continuous separation, which was far below the required level for drinking water (i.e., 0.1 μg/L). This work offers a promising solution for safe drinking water by remedying ultralow Tl + contaminated surface water.

Topics & Concepts

Prussian blueThalliumMembraneTRACE (psycholinguistics)ChemistryNuclear chemistryInorganic chemistryElectrochemistryBiochemistryPhysical chemistryPhilosophyElectrodeLinguisticsThallium and Germanium StudiesChemical Synthesis and CharacterizationInorganic Chemistry and Materials
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