Г. А. Гамов scite author profile

Ascorbic acid is one of the essential compounds for living organisms. The reductive properties of ascorbate depend significantly on the dissociation of ascorbic acid, which, in turn, is influenced by the ionic strength value. The protonation of ascorbate dianion was studied in an aqueous solution at T = 298.2 K; p = 0.1 MPa; and I = 0.10, 0.25, 0.5, 1.0, 2.0, 3.0, and 5.0 mol L–1 (NaCl) using the spectropotentiometric technique. Protonation constants were calculated from the spectral data. The analysis of ionic strength influence on the ascorbic acid dissociation constants was performed using the modified Davies equation (the so-called Vasil’ev equation) and specific ion interaction theory.

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Copper (II)-Catalyzed Oxidation of Ascorbic Acid: Ionic Strength Effect and Analytical Use in Aqueous Solution

Murekhina

Yarullin

Sovina³

et al. 2022

Inorganics

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Copper is an important metal both in living organisms and in the industrial activity of humans, it is also a distributed water pollutant and a toxic agent capable of inducing acute and chronic health disorders. There are several fluorescent chemosensors for copper (II) determination in solutions; however, they are often difficult to synthesize and solvent-sensitive, requiring a non-aqueous medium. The present paper improves the known analytical technique for copper (II) ions, where the linear dependence between the ascorbic acid oxidation rate constant and copper (II) concentration is used. The limits of detection and quantification of the copper (II) analysis kinetic method are determined to be 82 nM and 275 nM, respectively. In addition, the selectivity of the chosen indicator reaction is shown: Cu2+ cations can be quantified in the presence of the 5–20 fold excess of Co2+, Ni2+, and Zn2+ ions. The La3+, Ce3+, and UO22+ ions also do not catalyze the ascorbic acid oxidation reaction. The effect of the concentration of the common background electrolytes is studied, the anomalous influence for chloride-containing salts is observed and discussed.

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Geometry and UV-Vis Spectra of Au3+ Complexes with Hydrazones Derived from Pyridoxal 5′-Phosphate: A DFT Study

Pimenov

Grazhdan

Завалишин

et al. 2023

IJMS

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Gold(III) complexes with different ligands can provide researchers with a measure against pathogenic microorganisms with antibiotic resistance. We reported in our previous paper that the UV-Vis spectra of different protonated species of complexes formed by gold(III) and five hydrazones derived from pyridoxal 5′-phosphate are similar to each other and to the spectra of free protonated hydrazones. The present paper focuses on the reasons of the noted similarity in electron absorption spectra. The geometry of different protonated species of complexes of gold(III) and hydrazones (15 structures in total) was optimized using the density functional theory (DFT). The coordination polyhedron of gold(III) bond critical points were further studied to identify the symmetry of the gold coordination sphere and the type of interactions that hold the complex together. The UV-Vis spectra were calculated using TD DFT methods. The molecular orbitals were analyzed to interpret the calculated spectra.

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Complexation of Gold(III) with Pyridoxal 5′-Phosphate-Derived Hydrazones in Aqueous Solution

et al. 2022

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Today, complexes of gold(I) and gold(III) are recognized as promising drugs for the treatment of bacterial infectious diseases and oncological diseases, respectively. It is of interest to broaden the area of potential use of gold(III) compounds to the pathogenic microorganism as well. The first step towards the development of new antibacterial drugs based on Au3+ complexes is the study of their stability in an aqueous solution. The present contribution reports on the investigation of gold(III) complexation with five hydrazones derived from a well-known biologically active compound, pyridoxal 5′-phosphate (one of the aldehyde forms of the B6 vitamin). The complex formation in aqueous solutions was confirmed by mass spectrometry and fluorescent spectroscopy. The stoichiometric composition of the complexes formed and their stability constants were determined using a UV–Vis titration method. The complexes are quite stable at physiological values of pH, as the speciation diagrams show. The results of the paper are helpful for further studies of gold(III) complexes interaction with biomacromolecules.

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Г. А. Гамов

KEV: A free software for calculating the equilibrium composition and determining the equilibrium constants using UV–Vis and potentiometric data

Protonation of l-Ascorbic Acid in an Aqueous Solution at T = 298.2 K, p = 0.1 MPa, and I = 0.10–5.0 mol L^–1 (NaCl)

Copper (II)-Catalyzed Oxidation of Ascorbic Acid: Ionic Strength Effect and Analytical Use in Aqueous Solution

Geometry and UV-Vis Spectra of Au3+ Complexes with Hydrazones Derived from Pyridoxal 5′-Phosphate: A DFT Study

Complexation of Gold(III) with Pyridoxal 5′-Phosphate-Derived Hydrazones in Aqueous Solution

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Г. А. Гамов

KEV: A free software for calculating the equilibrium composition and determining the equilibrium constants using UV–Vis and potentiometric data

Protonation of l-Ascorbic Acid in an Aqueous Solution at T = 298.2 K, p = 0.1 MPa, and I = 0.10–5.0 mol L–1 (NaCl)

Copper (II)-Catalyzed Oxidation of Ascorbic Acid: Ionic Strength Effect and Analytical Use in Aqueous Solution

Geometry and UV-Vis Spectra of Au3+ Complexes with Hydrazones Derived from Pyridoxal 5′-Phosphate: A DFT Study

Complexation of Gold(III) with Pyridoxal 5′-Phosphate-Derived Hydrazones in Aqueous Solution

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Product

Resources

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Protonation of l-Ascorbic Acid in an Aqueous Solution at T = 298.2 K, p = 0.1 MPa, and I = 0.10–5.0 mol L^–1 (NaCl)