Engineering layered double hydroxide with enzyme-mimicking antibiofouling ability for uranium capture

[Display omitted] •Tungstate intercalated layered double hydroxides is fabricated for uranium capture.•Tungstate intercalation induces the generation of biomimetic antibiofouling ability in seawater.•A significant uranium removal efficiency of about 99 % is delivered in 240 ppm uranium-containing wa...

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Bibliographic Details
Published in:Separation and purification technology 2024-05, Vol.336, p.126170, Article 126170
Main Authors: Chen, Shipeng, Luo, Qiang, Wang, Wei, Li, Linqian, Li, Yilan, Wang, Ning
Format: Article
Language:English
Subjects:
Absorption
Biofouling
Layered double hydroxides
Nanozyme
Uranium
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Summary:[Display omitted] •Tungstate intercalated layered double hydroxides is fabricated for uranium capture.•Tungstate intercalation induces the generation of biomimetic antibiofouling ability in seawater.•A significant uranium removal efficiency of about 99 % is delivered in 240 ppm uranium-containing wastewater.•The antibiofouling activity ensures over 80 % preservation of uranium capture after consecutive nine cycles in seawater. Materials capable of capturing environmentally mobile uranium from various sources, including nuclear waste and bio-aggressive seawater, are critical for energy and environmental sustainability. Unfortunately, the stability and reusability of existing absorbents is limited in seawater due to the ubiquitous and notorious biofouling, and therefore, developing high-performance materials with antibiofouling activity is of great importance for uranium capture. Here we report a tungstate exchanged layered double hydroxide composite (MgAl-LDH-NO3--WO42-) that exhibits a significant uranium removal efficiency of 98.8 % in 240 ppm uranium-containing wastewater and a maximum uptake capacity of 409.6 mg g−1. More importantly, MgAl-LDH-NO3--WO42- displays an excellent antibiofouling ability in bio-aggressive seawater by mimicking natural haloperoxidase in marine algae, enabling the excellent cyclic stability for uranium capture from seawater. This work provides an effective strategy to develop highly efficient LDH-based materials for uranium capture.
ISSN:1383-5866
1873-3794
DOI:10.1016/j.seppur.2023.126170