Huda M. Nafea scite author profile

Huda M. Nafea

3Publications

1Citation Statement Received

63Citation Statements Given

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University of Baghdad

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Synthesis, Characterization, Antimicrobial, DNA Cleavage and Fluorescent Activity of Metal ion(II) Coordinate with 2H-Chromene Azo novel ligand

Nafea¹,

Kawaz²

2020

ijrps

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A new ligand 2H-chromene containing azo group 2-(4-nitrophenyl)-N-(4-(phenyldiazenyl)-2H-chromen-4-amine (AH), were synthesized from the condensation reaction (1:2)of 2'-hydroxychalcone and p-aminoazobenzene. Co(II), Cu(II) and Ni(II) complexes of the new ligand have been synthesized and characterized using C.H.N. analysis,1HNMR spectra, FT.IR, UV/Visible, magnetic susceptible, conductance measuring, and fluorescence spectral spectroscopy; 13CNMR spectroscopy of the ligand was also studied. Spectroscopic results revealed the 2H-Chromene Azo (AH) ligand behaves as monodentate chelating via the nitrogen atom of amine groupat position 4 having 1:1 [M:L] ratio; suggested that the cobalt and nickel complexes have the tetrahedralstructure and a distorted tetrahedralgeometry for the copper complex, indicating their non-electrolyte nature. The new ligand shows a fluorescence emissioncomparingwith this fluorescence quenching was noticed in its metal complexes. The antibacterial potency of the free ligand and its chelates with metal ion(II) were screened against E.coli, K.pneumoniae, Staph.aureus andB.Subtilis;The DNA cleavage activity of the free ligand and its 2H-chromene azo metal (II) complexes was performedby the gel electrophoresis process, which giventhat thesecompounds are effectiveupon DNA cleavage .

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The DETERMINATION OF AMILORIDE VIA QUENCHED CONTINUOUS FLUORESCENCE OF AZO DYE USING LOW-PRESSURE MERCURY LAMP TUBE (UV-LIGHT) AND MULTI SOLAR CELLS AT 2 X 90° AS A DETECTORS

Nafea

Turkey

2020

Int J App Pharm

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Objective: The aim of the method was to develop a novel, simple and rapid fluorometric method determination of Amiloride (AMD) in pure form and pharmaceutical drugs via fluorescence measurements. Methods: The method depends on fluorescence quenching of 2H-chromene azo dye (2-(4-nitrophenyl)-N-(4-(phenyldiazenyl)-2H-chromen-4-amine) upon adding Amiloride (AMD) using homemade ISNAG 2 X 90° multi solar cell via low-pressure mercury lamp at two significant wavelengths 184.9 and 253.7 nm combined with continuous flow injection analysis. Results: Under the optimized conditions, the fluorescence quenching linear working range and percentage linearity (r2%) was (0.03-8 mmol/l) and 98.78 %, respectively. The suggested method was effectively applied to the determination of AMD in two different pharmaceutical drugs and compared with the classical method (UV-vis spectrophotometry at λ=540 nm). Conclusion: The proposed and established method is simple, direct, and efficient. The statistical comparison results using a t-test at 95% confidence interval that was applied to compare the new and classical method showed there are no significant differences between the two methods.

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Continuous Flow Injection Analysis (CFIA) of Metformin Hydrochloride using Microphotmeter Equipped with 530 and 550nm LED.

Shakir¹,

Al-abdli²,

Nafea³

2013

JNUS

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Newly developed spectrophotometric method was used in the present research project for the determination of metformin hydrochloride drug (MTF.HCl), via the complexation of the drug with copper(II). The colored products was measured at 530 nm. The optimization of all chemical and physical parameters for MTF-OH --Cu(II) system are described. A linear range of 94.04 % for 0.0-100 mM was obtained with a Limit of Detection (L.O.D) 662 ng. The newly developed system was applied for the analysis of pharmaceutical preparation. A comparison was made using paired t-test shows that, the newly developed method can be used as an alternative analytical method for the analysis of metformin hydrochloride (MTF). All this project work was based on on-line determination via Continuous Flow Injection Analysis (C.F.I.A).

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Huda M. Nafea

Synthesis, Characterization, Antimicrobial, DNA Cleavage and Fluorescent Activity of Metal ion(II) Coordinate with 2H-Chromene Azo novel ligand

The DETERMINATION OF AMILORIDE VIA QUENCHED CONTINUOUS FLUORESCENCE OF AZO DYE USING LOW-PRESSURE MERCURY LAMP TUBE (UV-LIGHT) AND MULTI SOLAR CELLS AT 2 X 90° AS A DETECTORS

Continuous Flow Injection Analysis (CFIA) of Metformin Hydrochloride using Microphotmeter Equipped with 530 and 550nm LED.

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