Superior‐Selective and Complete Recycling of Trace Precious Metals From Wastewater by Magnetic Trilayer Carbon‐Aerogels

Superior‐Selective and Complete Recycling of Trace Precious Metals From Wastewater by Magnetic Trilayer Carbon‐Aerogels

Abstract It is a considerable challenge to selectively recycle precious metals from industrial wastewater and natural waters. Herein, carbon aerogels embedded with magnetic Fe@FeS@C nanoparticles (CFeS aerogels) were constructed from natural carrageenan. The unique redox potential of FeS, coupled wi...

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Bibliographic Details
Main Authors: Jianzheng Yang, Yan Zhou, Shang Du, Bing Wu, Jianying Zhang, Shanjun Song, Tao Zhou, Jinming Zhang
Format: Article
Language:English
Published: Wiley 2025-08-01
Series:Advanced Science
Subjects:
biomass
precious metals
resource recovery
selectivity
water treatment
Online Access:https://doi.org/10.1002/advs.202500858
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Summary:Abstract It is a considerable challenge to selectively recycle precious metals from industrial wastewater and natural waters. Herein, carbon aerogels embedded with magnetic Fe@FeS@C nanoparticles (CFeS aerogels) were constructed from natural carrageenan. The unique redox potential of FeS, coupled with the barrier effect and the electron conduction property of the carbon layer, made the Fe@FeS@C nanoparticles exhibited the ultra‐high ion selectivity. The resultant CFeS aerogels can selectively adsorb and reduce trace Au(III), Ag(I), and Pd(II) ions at ppb level in an aqueous solution with 29 coexisting cations. Even if the concentration of competing metal ions is 100‐fold higher than those of the precious metal ions, the selectivity for Au(III), Ag(I), and Pd(II) ions remained above 99.2%. Moreover, the 3D carbon network immobilizing the Fe@FeS@C nanoparticles prevented the aggregation and detachment of the recycled precious metals, thereby enhancing the adsorption rate and capacity. CFeS aerogels rapidly achieved adsorption equilibrium for Au(III), Ag(I), and Pd(II) ions in 5–10 min, and have the saturated adsorption capacities of 321.2 mg·g−1, 150.6 mg·g−1, and 70.1 mg·g−1, respectively. Such aerogels with ultra‐high selectivity, high efficiency, and easy separation provided a practical strategy for the enrichment and recovery of the precious metals.
ISSN:2198-3844

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