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Your search keyword '"Iorgulescu, Emilia Elena"' showing total 30 results
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30 results on '"Iorgulescu, Emilia Elena"'

1. Curcumin-Based Molecularly Imprinted Polymer Electropolymerized on Single-Use Graphite Electrode for Dipyridamole Analysis.

Author

Preda, Daniel, Radu, Gabriel Lucian, Iorgulescu, Emilia-Elena, Cheregi, Mihaela-Carmen, and David, Iulia Gabriela

Subjects
ELECTROCHEMICAL sensors, DRINKING water, WATER sampling, ELECTROCHEMICAL analysis, DETECTION limit, IMPRINTED polymers
Abstract

A new molecularly imprinted polymer (MIP)-based disposable electrochemical sensor for dipyridamole (DIP) determination was obtained. The sensor was rapidly prepared by potentiodynamic electrochemical polymerization on a pencil graphite electrode (PGE) using curcumin (CUR) as a functional monomer and DIP as a template molecule. After the optimization of the conditions (pH, monomer–template ratio, scan rate, number of cyclic voltammetric cycles applied in the electro-polymerization process and extraction time of the template molecule) for MIP formation, DIP voltammetric behavior at the modified electrode (MIP_PGE) was investigated. DIP oxidation took place in a pH-dependent, irreversible mixed diffusion-adsorption controlled process. Differential pulse voltammetry (DPV) and adsorptive stripping differential pulse voltammetry (AdSDPV) were used to quantify DIP from pharmaceutical and tap water samples. Under optimized conditions (Britton–Robinson buffer at pH = 3.29), the obtained linear ranges were 5.00 × 10−8–1.00 × 10−5 mol/L and 5.00 × 10−9–1.00 × 10−7 mol/L DIP for DPV and AdSDPV, respectively. The limits of detection of the methods were 1.47 × 10−8 mol/L for DPV and 3.96 × 10−9 mol/L DIP for AdSDPV. [ABSTRACT FROM AUTHOR]

Published
2024
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2. Copper(II) Methacrylate Complexes with Imidazole Derivatives—Structural, Spectral and Antitumor Features.

Author

Teodoru, Dragoș Vlad, Olar, Rodica, Maxim, Cătălin, Bacalum, Mihaela, Răileanu, Mina, Iorgulescu, Emilia-Elena, Vasile Scăețeanu, Gina, and Badea, Mihaela

Subjects
MONOCLINIC crystal system, FOURIER transform infrared spectroscopy, CHELATES, STEREOCHEMISTRY, COPPER crystals
Abstract

A series of five novel copper(II) complexes with imidazole derivatives having general core Cu(R-Im)2(Macr)2 (Macr = methacrylate anion; R-Im = 2-methylimidazole/2-MeIm, 4-methylimidazole/4-MeIm, 2-ethylimidazole/2-EtIm, 2-isopropylimidazole/2-iPrIm) has been synthesized and characterized by elemental analysis, Fourier Transform Infrared spectroscopy (FTIR), electronic reflectance spectroscopy, cyclic voltammetry, thermal analysis and single crystal X-ray diffraction. All complexes crystalize in a monoclinic crystal system and form a complex supramolecular network developed through hydrogen bonds. The stereochemistry of the copper ion is distorted octahedral except for the compound with 4-methylimidazole for which the geometry is square-pyramidal. The imidazole derivatives act as unidentate while methacrylate ions are chelated except for compound with 4-methylimidazole where is unidentate. All ligands and complexes inhibited B16 murine melanoma cells in a micromolar range, but the complex with 2-isopropylimidazole was more active. Furthermore, all species do not affect the healthy BJ cells in the concentration range used for assays. [ABSTRACT FROM AUTHOR]

Published
2024
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3. Curcumin Electrochemistry—Antioxidant Activity Assessment, Voltammetric Behavior and Quantitative Determination, Applications as Electrode Modifier.

Author

David, Iulia Gabriela, Iorgulescu, Emilia Elena, Popa, Dana Elena, Buleandra, Mihaela, Cheregi, Mihaela Carmen, and Noor, Hassan

Subjects
CURCUMIN, VOLTAMMETRY, ELECTROCHEMISTRY, CHEMICAL species, ELECTRODES, ANTIOXIDANTS, TURMERIC
Abstract

Curcumin (CU) is a polyphenolic compound extracted from turmeric, a well-known dietary spice. Since it has been shown that CU exerts beneficial effects on human health, interest has increased in its use but also in its analysis in different matrices. CU has an antioxidant character and is electroactive due to the presence of phenolic groups in its molecule. This paper reviews the data reported in the literature regarding the use of electrochemical techniques for the assessment of CU antioxidant activity and the investigation of the voltammetric behavior at different electrodes of free or loaded CU on various carriers. The performance characteristics and the analytical applications of the electrochemical methods developed for CU analysis are compared and critically discussed. Examples of voltammetric investigations of CU interaction with different metallic ions or of CU or CU complexes with DNA as well as the CU applications as electrode modifiers for the enhanced detection of various chemical species are also shown. [ABSTRACT FROM AUTHOR]

Published
2023
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9. Insights into Structure and Biological Activity of Copper(II) and Zinc(II) Complexes with Triazolopyrimidine Ligands

Author

Argăseală, Aura, primary, Maxim, Cătălin, additional, Badea, Mihaela, additional, Ioniță, Larisa, additional, Chifiriuc, Mariana Carmen, additional, Rostas, Arpad Mihai, additional, Bacalum, Mihaela, additional, Răileanu, Mina, additional, Ruţă, Lavinia L., additional, Farcaşanu, Ileana C., additional, Iorgulescu, Emilia Elena, additional, and Olar, Rodica, additional

Published
2022
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14. Biological Activity of Triazolopyrimidine Copper(II) Complexes Modulated by an Auxiliary N-N-Chelating Heterocycle Ligands

Author

Ruta, Lavinia L., primary, Farcasanu, Ileana C., additional, Bacalum, Mihaela, additional, Răileanu, Mina, additional, Rostas, Arpad Mihai, additional, Daniliuc, Constantin, additional, Chifiriuc, Mariana Carmen, additional, Măruțescu, Luminița, additional, Popa, Marcela, additional, Badea, Mihaela, additional, Iorgulescu, Emilia Elena, additional, and Olar, Rodica, additional

Published
2021
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18. Insight on Ni(II) and Cu(II) complexes of biguanide derivatives developed as effective antimicrobial and antitumour agents

Author

Badea, Mihaela, primary, Grecu, Maria Nicoleta, additional, Chifiriuc, Mariana Carmen, additional, Bleotu, Coralia, additional, Popa, Marcela, additional, Iorgulescu, Emilia Elena, additional, Avram, Speranța, additional, Uivarosi, Valentina, additional, Munteanu, Alexandra‐Cristina, additional, Ghica, Daniela, additional, and Olar, Rodica, additional

Published
2021
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21. Voltammetric Determination of Carprofen

Author

David, Iulia Gabriela, primary, Popa, Dana Elena, additional, Buleandra, Mihaela, additional, Dan, Emilia, additional, Stan, Georgeta-Simona, additional, Badea, Irinel Adriana, additional, Iorgulescu, Emilia-Elena, additional, and Aboul Enein, Hassan Y., additional

Published
2018
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24. Studies on thermal, spectral, magnetic and biological properties of new Ni(II), Cu(II) and Zn(II) complexes with a bismacrocyclic ligand bearing an aromatic linker

Author

Bucur, Cristina, primary, Badea, Mihaela, additional, Chifiriuc, Mariana Carmen, additional, Bleotu, Coralia, additional, Iorgulescu, Emilia Elena, additional, Badea, Irinel Adriana, additional, Grecu, Maria Nicoleta, additional, Lazăr, Veronica, additional, Patriciu, Oana-Irina, additional, Marinescu, Dana, additional, and Olar, Rodica, additional

Published
2013
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30. Novel voltammetric investigation of dipyridamole at a disposable pencil graphite electrode

Author

DAVID, İulia Gabriela, IORDACHE, Lorelei, POPA, Dana Elena, BULEANDRA, Mihaela, DAVID, Victor, and IORGULESCU, Emilia-elena

Subjects
Dipyridamole,voltammetry,disposable electrode,pencil graphite electrode,pharmaceuticals
Abstract

The present paper describes the voltammetric analysis of dipyridamole (DIP) at a cheap, disposable pencil graphite electrode (PGE). The working conditions were optimized with regard to the electrode material and the supporting electrolyte. Cyclic voltammetric investigations emphasized that DIP is irreversibly oxidized at the PGE. The electrode process is pH-dependent and controlled by both diffusion and adsorption. For DIP quantitative determination a differential pulse voltammetric (DPV) method in phosphate buffer solution pH 7.00 was developed. DIP's oxidation peak current varied linearly with the analyte concentration, presenting two linear ranges, namely 5.00 $\times $ 10$^{-7}$-2.50 $\times $ 10$^{-5}$ M and 2.50 $\times $ 10$^{-5}$-2.50 $\times $ 10$^{-4}$ M, with detection and quantification limits of 1.21 $\times $ 10$^{-7}$ M and 4.03 $\times $ 10$^{-7}$ M DIP, respectively. The newly developed DPV method using the inexpensive, disposable PGE was successfully applied for the simple and rapid determination of DIP from pharmaceutical formulations.

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