Polyamidoxime grafting on ultrahigh-strength cellulose-based jute fabrics for effectively extracting uranium from seawater

Uranium resources in the ocean are very rich and are an ideal substitute for the increasingly depleting terrestrial uranium mines. Hence, it is an urgent need to develop adsorbents that simultaneously possess robustness, high extractive efficiency, and eco-friendly nature to capture uranium from sea...

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Veröffentlicht in:	New journal of chemistry 2022-03, Vol.46 (13), p.6296-636
Hauptverfasser:	Mi, Zhiming, Zhang, Dexing, Wang, Junman, Bi, Shiman, Liu, Jing, Gao, Xiyu, Zhang, Dawei, Jiang, Yuanping, Li, Zuojia, Zhu, Yean, Liu, Zhixiao
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Sprache:	eng
Schlagworte:	Bonding agents Cellulose Grafting Jute Robustness Seawater Structural integrity Tensile strength Uranium
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container_title	New journal of chemistry
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creator	Mi, Zhiming Zhang, Dexing Wang, Junman Bi, Shiman Liu, Jing Gao, Xiyu Zhang, Dawei Jiang, Yuanping Li, Zuojia Zhu, Yean Liu, Zhixiao
description	Uranium resources in the ocean are very rich and are an ideal substitute for the increasingly depleting terrestrial uranium mines. Hence, it is an urgent need to develop adsorbents that simultaneously possess robustness, high extractive efficiency, and eco-friendly nature to capture uranium from seawater. Herein, a polyamidoxime (PAO)-grafted cellulose-based jute fabric (Jute-TMC-PAO) was developed via an etching-grafting-hydrolytic process. A homogeneous PAO layer was grafted onto an alkali-treated jute fabric surface via covalent bonding with trimesoyl chloride (TMC) as a bridging agent, followed by the generation of carboxyl groups by hydrolysis. The resulting Jute-TMC-PAO demonstrated an ultrahigh tensile strength of 376 MPa, providing a highly efficient adsorption rate of 0.233 mg g −1 day −1 in simulated natural seawater. Importantly, the structural integrity of Jute-TMC-PAO was well-reserved and the tensile strength loss was no more than 5% after a long service practice. Moreover, the readily available cellulose-based jute in Jute-TMC-PAO exemplifies its eco-friendly advantage. Therefore, Jute-TMC-PAO is a promising engineering candidate for harvesting uranium from seawater owing to its robustness, efficiency and environmentally sound characteristics. Ultrahigh-strength cellulose-based jute fabric (jute-TMC-PAO) for the highly effective extraction of uranium from seawater.
doi_str_mv	10.1039/d1nj06072d
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Hence, it is an urgent need to develop adsorbents that simultaneously possess robustness, high extractive efficiency, and eco-friendly nature to capture uranium from seawater. Herein, a polyamidoxime (PAO)-grafted cellulose-based jute fabric (Jute-TMC-PAO) was developed via an etching-grafting-hydrolytic process. A homogeneous PAO layer was grafted onto an alkali-treated jute fabric surface via covalent bonding with trimesoyl chloride (TMC) as a bridging agent, followed by the generation of carboxyl groups by hydrolysis. The resulting Jute-TMC-PAO demonstrated an ultrahigh tensile strength of 376 MPa, providing a highly efficient adsorption rate of 0.233 mg g −1 day −1 in simulated natural seawater. Importantly, the structural integrity of Jute-TMC-PAO was well-reserved and the tensile strength loss was no more than 5% after a long service practice. Moreover, the readily available cellulose-based jute in Jute-TMC-PAO exemplifies its eco-friendly advantage. Therefore, Jute-TMC-PAO is a promising engineering candidate for harvesting uranium from seawater owing to its robustness, efficiency and environmentally sound characteristics. 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Therefore, Jute-TMC-PAO is a promising engineering candidate for harvesting uranium from seawater owing to its robustness, efficiency and environmentally sound characteristics. 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source	Royal Society Of Chemistry Journals 2008-; Alma/SFX Local Collection
subjects	Bonding agents Cellulose Grafting Jute Robustness Seawater Structural integrity Tensile strength Uranium
title	Polyamidoxime grafting on ultrahigh-strength cellulose-based jute fabrics for effectively extracting uranium from seawater
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