Mesoporous Magnetic Cysteine Functionalized Chitosan Nanocomposite for Selective Uranyl Ions Sorption: Experimental, Structural Characterization, and Mechanistic Studies

Al-Ghamdi, Ahmed A.; Galhoum, Ahmed A.; Alshahrie, Ahmed; Al‐Turki, Yusuf; Al-Amri, Amal M.; Wageh, S.

doi:10.3390/polym14132568

Cited by 26 publications

(11 citation statements)

References 57 publications

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“…As a result, future researchers in developed countries will benefit and more uranium extraction and separation procedures are being researched and developed in emerging countries. This issue has become a hot topic in terms of environmental protection and nuclear fuel conservation [9][10][11][12][13]. Uranium may be extracted from its ores via acid or alkaline leaching [14,15].…”

Section: Introductionmentioning

confidence: 99%

Comparative study for leaching processes of uranium, copper and cadmium from gibbsite ore material of Talet Seleim, Southwestern, Sinai, Egypt

Kassab

2022

J Radioanal Nucl Chem

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In this paper, leaching characteristics are presented, and a cost-effective process for extracting uranium, copper, and cadmium from Talet Seleim’s Gibbsite is developed. H2SO4 was chosen as the preferable leaching agent based on the agitation experiment’s findings. The leaching efficiencies of U, Cu, and Cd attained 95%, 90%, and 89%, respectively, under the investigated ideal circumstances. Kinetic study of leaching process proved diffusion controlling mechanisms with activation energies: 29.59, 29.30, and 34.84 kJ/mol, respectively. U was recovered using Amberlite IRA 400, while Cu and Cd were precipitated from Talet Seleim’s gibbsite’s sulphate leachate. Finally, the tentative treatment procedure's preliminary flowsheet was then given.

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Section: Introductionmentioning

confidence: 99%

Comparative study for leaching processes of uranium, copper and cadmium from gibbsite ore material of Talet Seleim, Southwestern, Sinai, Egypt

Kassab

2022

J Radioanal Nucl Chem

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“…Meanwhile, increasing efforts have been devoted to address enduring challenges, such as the dissolution and controlled release of poorly water-soluble drugs ( Esim & Hascicek, 2021 ; Lv, et al, 2021 ; Murugesan and Raman, 2021 ; Sultana, et al, 2021 ). During the past few decades, many chemical methods (such as conjugation and chemical modification) and physical methods (such as melt extrusion, heat spraying, and encapsulation by beta-cyclodextrin, electrospraying) have been introduced into this application field ( Wang, et al, 2019 ; Butreddy, et al, 2021 ; Al-Ghamdi, et al, 2022 ; Zhu, et al, 2022b ; Shen, et al, 2022 ; Li, et al, 2023a ; Lv et al, 2023a ; Li et al, 2023b ; Lv et al, 2023b ). Among them, physical nano methods are gradually being applied in this field; bottom-up methods (such as molecular self-assembly) and top-down strategies (such as electrospinning and electrospraying) have frequently been investigated in recent years ( Miar, et al, 2021 ; Chen, et al, 2022b ; Shibata, et al, 2022 ; Xie, et al, 2022 ).…”

Section: Introductionmentioning

confidence: 99%

The influence of the ultrasonic treatment of working fluids on electrospun amorphous solid dispersions

Wang

Lü

Yang

et al. 2023

Front. Mol. Biosci.

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Based on a working fluid consisting of a poorly water-soluble drug and a pharmaceutical polymer in an organic solvent, electrospinning has been widely exploited to create a variety of amorphous solid dispersions However, there have been very few reports about how to prepare the working fluid in a reasonable manner. In this study, an investigation was conducted to determine the influences of ultrasonic fluid pretreatment on the quality of resultant ASDs fabricated from the working fluids. SEM results demonstrated that nanofiber-based amorphous solid dispersions from the treated fluids treated amorphous solid dispersions exhibited better quality than the traditional nanofibers from untreated fluids in the following aspects: 1) a straighter linear morphology; 2) a smooth surface; and 3) a more evener diameter distribution. The fabrication mechanism associated with the influences of ultrasonic treatments of working fluids on the resultant nanofibers’ quality is suggested. Although XRD and ATR–FTIR experiments clearly verified that the drug ketoprofen was homogeneously distributed all over the TASDs and the traditional nanofibers in an amorphous state regardless of the ultrasonic treatments, the in vitro dissolution tests clearly demonstrated that the TASDs had a better sustained drug release performance than the traditional nanofibers in terms of the initial release rate and the sustained release time periods.

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“…Pollution of water bodies with various pollutants, such as heavy and radioactive metals, 1–8 dyes, 9 pesticides, 10 organic solvents, and oil products, 11 is a severe environmental problem. The discharge and leakage of oil and oil products in case of accidents on oil tankers and main oil pipelines cause significant damage to aquatic ecosystems and create significant economic losses.…”

Section: Introductionmentioning

confidence: 99%

Gel based on modified chitosan for oil spill cleanup

Yudaev,

Semenova,

Chistyakov

2023

J of Applied Polymer Sci

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A method has been developed for obtaining a polymer porous gel and coating based on nontoxic and environmentally friendly components: chitosan, citral, and glutaraldehyde. The chemical structure and morphology of the polymer gel were investigated by infrared spectroscopy and scanning electron microscopy, respectively. The contact angles were determined using a goniometer, and the water and oil absorption of the gel were determined by the gravimetric method based on changes in the gel mass. Measurement of the contact angle θ of transmission oil and water drops on the coating surface showed the hydrophobic nature of the coating (θ = 90° for water and θ = 0° for oil). Study of the sorption properties of the resulting gel showed high sorption capacity with respect to transmission oil (9.05 kg/kg) and low sorption capacity with respect to water (2.46 kg/kg). It was found that after oil desorption from the loaded aerogel, it can be reused. The potential possibility of recycling the spent gel through its biodegradation in the soil was shown. Because of the excellent sorption capacity, high porosity, low density, and soil degradability, the developed gel has a great potential for application in the field of environmental purification from oil pollution.

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Mesoporous Magnetic Cysteine Functionalized Chitosan Nanocomposite for Selective Uranyl Ions Sorption: Experimental, Structural Characterization, and Mechanistic Studies

Cited by 26 publications

References 57 publications

Comparative study for leaching processes of uranium, copper and cadmium from gibbsite ore material of Talet Seleim, Southwestern, Sinai, Egypt

Comparative study for leaching processes of uranium, copper and cadmium from gibbsite ore material of Talet Seleim, Southwestern, Sinai, Egypt

The influence of the ultrasonic treatment of working fluids on electrospun amorphous solid dispersions

Gel based on modified chitosan for oil spill cleanup

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