F
Falah H. Hanoon
Researcher at Thi Qar University
Publications - 19
Citations - 128
Falah H. Hanoon is an academic researcher from Thi Qar University. The author has contributed to research in topics: Density functional theory & Band gap. The author has an hindex of 6, co-authored 19 publications receiving 72 citations.
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Theoretical prediction of delivery and adsorption of various anticancer drugs into pristine and metal-doped graphene nanosheet
TL;DR: In this article, the authors used pristine GNS and metal-doped GNS as a carrier to the (5-FU, 6-MP, GB, and CP) anticancer drugs.
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Electronic structure and band gap engineering of bilayer graphene nanoflakes in the presence of nitrogen, boron and boron nitride impurities
Mohammed H. Mohammed,Mohammed H. Mohammed,Ahmed S. Al-Asadi,Ahmed S. Al-Asadi,Falah H. Hanoon +4 more
TL;DR: In this article, the effect of the bilayer spacing was studied by varying the distance between the flakes from 4'A to 8'A, which showed an increase in the band gap value from 3.33'eV to 3.46 'eV.
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Semi-metallic bilayer MS2 (M=W, Mo) induced by Boron, Carbon, and Nitrogen impurities
Mohammed H. Mohammed,Mohammed H. Mohammed,Ahmed S. Al-Asadi,Ahmed S. Al-Asadi,Falah H. Hanoon +4 more
TL;DR: In this article, the first-principle density functional theory (DFT) calculation was performed to investigate the structural and electronic properties of the bilayer MS2 with and without Boron (B), Carbon (C), and Nitrogen (N) impurities (added in the center between the slabs).
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Zinc oxide nanosheet as a promising route for carrier 5-fluorouracil anticancer drug in the presence metal impurities: Insights from DFT calculations
TL;DR: In this article, the electronic properties of the 5-FU/pristine ZnONS and 5-Fu/metal-doped Znons are studied by using DFT method, which implemented in the quantum espresso package.
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Using of cellulose with various nanoparticles as chelating factors in nanovaccines: Density functional theory investigations
TL;DR: In this paper, a density functional theory (DFT) calculation was carried out to understand the nature of the interactions between Cellulose/single-wall boron nitride nanotube (Ce/SWBNNTs), Fullerene (Cce/C60), and boronal nitride (BNNS) as a delivery system, and the results demonstrated that all electronic properties of these nanoparticles are enhanced with Ce molecule and became very beneficial in various applications.