Recovery of uranium using epoxy-modified phosphorus pentasulfide as an efficient adsorbent for uranium extraction from aquatic environments

Epoxy-modified phosphorus pentasulfide (EPMPS) formulation was developed for the supported recovery of uranium from aquatic environments. The selected components of the prepared formulation were tailored to produce a rigid foamed polymeric material that was rich in phosphorus, nitrogen, sulfur and o...

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Bibliographic Details
Published in:RSC advances 2024-10, Vol.14 (47), p.34526-34536
Main Authors: Badr, Magd M, Youssef, W. M, Elgammal, Entesar M, Hussien, A. E. M, Taha, M. H
Format: Article
Language:English
Subjects:
Adsorption
Aquatic environment
Chelation
Chemical bonds
Chemistry
Oxygen atoms
Phase ratio
Phosphorus
Plastic foam
Recovery
Shaking
Sodium acetate
Sorbents
Uranium
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Summary:Epoxy-modified phosphorus pentasulfide (EPMPS) formulation was developed for the supported recovery of uranium from aquatic environments. The selected components of the prepared formulation were tailored to produce a rigid foamed polymeric material that was rich in phosphorus, nitrogen, sulfur and oxygen atoms, thus increasing chelating bonding possibilities with uranium. FT-IR and SEM were applied to physically characterize the resulting sorbent. At an equilibrium time of 30 min, the phase ratio S/L of 1 g L −1 , pH 3 and initial uranium concentration of 50 mg L −1 yielded an adsorption efficiency for uranium of 90%. An 85% elution of uranium from loaded EPMPS was achieved with 1 h shaking and a phase ratio (S/A) of 0.5 g/25 mL of 0.1 M CH 3 COONa. Sorption isotherm designs were exploited to analyze the findings from the experiments. Uranium had an adsorption capability of about 78.7 mg g 1 . According to the results of uranium adsorption, when applied to an actual sample, EPMPS is a suitable substrate for uranium adsorption from nitrate media. Epoxy-modified phosphorus pentasulfide (EPMPS) formulation was developed for the supported recovery of uranium from aquatic environments.
ISSN:2046-2069
2046-2069
DOI:10.1039/d4ra04688a