Lecturer in Physical Chemistry holding an M.Sc. degree. Specialized in nanomaterials, adsorption processes, and surface chemistry. Experienced in teaching both theoretical and practical laboratory courses. Actively involved in academic supervision and participation in scientific and examination committees.
M.Sc. in Physical Chemistry – University of Baghdad B.Sc. in Chemistry – University of Baghdad
eaching theoretical and practical courses in Physical Chemistry. Supervising undergraduate research projects and laboratory work. Participation in scientific, examination, and academic committees. Research activities in nanomaterials and adsorption studies.
Member of the Iraqi Chemists Association. Awarded Letters of Appreciation by the Minister of Higher Education and Scientific Research and the President of the University of Baghdad in recognition of academic and administrative contributions. Active member of scientific and examination committees.
Nanomaterials synthesis and characterization. Green synthesis of nanoparticles. Adsorption studies and surface chemistry. Environmental applications of nanomaterials. Kinetic and thermodynamic studies of adsorption processes.
Physical Chemistry Nanotechnology Surface Chemistry
General Chemistry (Theory) Electrochemistry Laboratory Chemical Kinetics Laboratory General Chemistry Laboratory (Department of Chemistry)
Two nanocomposite corrosion inhibitors were synthesized from Aloe vera extract: one incorporating sodium thiosulfate and the other silver nitrate. Both nanocomposites were subjected to structural characterization using atomic force microscopy (AFM), which revealed distinct morphological features. The sodium thiosulfate-based nanocomposite exhibited uniform and well-dispersed nanoparticles with an average size of 47.51 nm, suggesting a stable and homogeneous distribution. In contrast, the silver nitrate-based nanocomposite displayed slightly larger particles with an average diameter of 58.34 nm, indicating a tendency toward moderate aggregation. The corrosion inhibition performance of these nanocomposites for carbon steel (CS1137) was invest
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Protection study of the corrosion behavior of Copper surface was conducted with several concentrations of drug. Experimentally, voltammetric measurements were used to check the inhibition eciency (% IE) in saline solution of 3.5% NaCl. The results showed an increase in the inhibition eciency with increasing the concentration of the drug was 95.90%. Theoretical treatment of the drug in the gas phase was performed using the (hyperchem-8.07) program for molecular mechanics and semi-empirical computations. The (PM3) approach was used to determine the heat of formation (1H°f), binding energy (1Eb), and total energ
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The polymer was used to inhibit the corrosion of copper metal in salt media in di erent concentrations at room temperature using potentiometric polarization measurement. The polymer was prepared by mixing (0.1 M) 4-Hydroxy aniline (C6H7NO) with (0.25M) of ammonium persulfate as the initiator using the electro-deposition technique. The polymer’s results showed that copper in (3.5%) NaCl had good corrosion resistance. The ndings demonstrate that the %IE for polymer-induced copper corrosion is 89.32% at 10 ppm concentration as a result of the 4-hydroxy aniline polymer’s adsorption from salt solution on the surface of copper metal. The numbers from the polarization method and the acquired standard data agree well. The coated copper by poly
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