Publications by authors named "Mohamed F Attallah"
Rice husk was converted into activated carbon (AC) as a byproduct of agricultural waste in an electric furnace at 700 °C and chemically activated using three distinct processes: NaOH AC(C), acetic acid AC(C-1), phosphoric acid AC(C-2), and carbonization AC(C-3) without any chemical activation. To characterize the activated carbon and the removal efficiencies of Fe(III) and Mn(II) from aqueous solutions, various analytical tools were used. The results revealed that the capacities of the four adsorbents to adsorb Fe(III) or Mn(II) from an aqueous solution differ significantly.
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- The research aims to effectively extract and purify europium (Eu) from nuclear waste using a specially synthesized composite material.
- Key characterization techniques such as FTIR, TGA, DTA, SEM, and BET were employed, revealing that the optimal Eu removal efficiency of 86.4% occurs at a pH of 4.5 after 180 minutes.
- The study further indicates that the sorption follows pseudo second-order kinetics and fits the Langmuir isotherm model, demonstrating that this polymer composite is highly effective for recovering radioactive Eu ions from various water sources.
Nano trigonal prismatic BaCoO with hierarchical structure and deficient BaCoO with columnar structure have been prepared at low temperatures (400 [BC4] and 500 [BC5]) °C/3h using green method. X-ray diffraction (XRD) results demonstrate the presence of enriched BaCoO phase at 400 °C and multiphase structures: BaCoO, BaCoO, and CoO with a decrease in the amount of BaCoO at 500 °C. The prepared powders are characterized by a high specific surface area (SSA) values which are reflected to the mode of synthesis that leads to produce materials with massive active sites.
View Article and Find Full Text PDFAlpha spectrometry is one of the greatest nuclear techniques for identification and quantification of α-emitters in the environment due to nuclear fuel cycle operations, nuclear materials and geochemical studies or forensic medicine investigations. This study was conducted to re-evaluate and optimize the factors affecting the performance of a multi-chamber alpha spectrometer (EG&G Ortec) used in our laboratory using an aged α-source of U in equilibrium with its decay products. The results shown that the energy calibration within energy window 4-9 MeV has been done using alpha particle emissions of U (t.
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- Copper oxide nanoparticles (CuO NPs), obtained from Aspergillus terreus filtrate, show promise for use in the biomedical field.
- Characterization techniques like UV-Vis spectrophotometry, FT-IR, XRD, SEM, and TEM confirmed the structure, purity, and shape of the nanoparticles, with an average size of about 15.75 nm.
- A new composite material was synthesized for the radiochemical separation of Sc(III) ions, achieving a recovery yield of 78% and meeting quality standards for nuclear medicine applications.
This study aims to identify the analytical and radiological characterization of scale TENORM waste produced from oil and natural gas productions in the western desert in Egypt and evaluates their radiological impacts. The mean activity concentration of U, Ra, Pb, Ra, Ra, and K measured in scale TENORM samples is 660 ± 63, 1979 ± 435, 1399 ± 211, 645 ± 104, 794 ± 116, and 556 ± 86 Bq/kg, respectively. Radiological hazard parameters (Ra, Hex, Hin, etc.
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