Your search keyword '"Svetlana Ignatova"' showing total 5 results

1. [Untitled]

Author

Svetlana Ignatova, Tatiana A. Maryutina, Ian Sutherland, and B. Ya. Spivakov

Subjects

Van Deemter equation, Chiral column chromatography, Countercurrent chromatography, Chromatography, Column chromatography, Two-dimensional chromatography, Chemistry, Analytical chemistry, Chromatography column, High-performance liquid chromatography, Analytical Chemistry, Retardation factor

Abstract

The effect of hydrodynamic parameters and the specific features of instrument design on the efficiency of substance separation in countercurrent liquid chromatography (CCC) was studied using a constant retention factor of the stationary phase in the column. The study was conducted with the separation of benzyl alcohol and p-cresol in a two-phase liquid system heptane–ethyl acetate–methanol–water (1.4 : 0.6 : 1 : 1) in as an example. It was shown that the peak resolution is improved with an increase in the rotational speed of the column and a decrease in the flow rate of the mobile phase. The best peak separation was attained using columns for which the ratio of the column rotation radius to the radius of column revolution was 0.615. It was shown that countercurrent chromatography allows the separation of substances with low partition constants (K < 1) in dilute solutions. The volume of the test sample may be up to 15% of the total volume of the chromatography column.

Published

2003

2. [Untitled]

Author

Tatiana A. Maryutina, B. Ya. Spivakov, and Svetlana Ignatova

Subjects

Ammonium sulfate, chemistry.chemical_compound, Aqueous solution, Countercurrent chromatography, Column chromatography, chemistry, Phase (matter), Aqueous two-phase system, Analytical chemistry, Tributyl phosphate, Phosphoric acid, Analytical Chemistry

Abstract

The effects of physicochemical properties of two-phase liquid systems (interfacial tension and differences in density and viscosity) on the retention of the stationary phase in the column were examined. These effects mainly determine the separation parameters of compounds. Extractant/decane–aqueous phase systems were used; their physicochemical properties changed both as a result of adding an extractant (di-(2-ethylhexyl) phosphoric acid, trioctylamine, or tributyl phosphate) to the organic solvent and because of a change in the composition of the aqueous phase. Aqueous ammonium sulfate of varying concentration was used as a mobile phase. It was shown that interfacial tension substantially affects the behavior of the systems under consideration. An increase in the ammonium sulfate concentration only slightly affects the retention factor of the stationary phase in the column. With a proper choice of the stationary phase, countercurrent chromatography can be used for the extraction of components from salt solutions of various concentrations.

Published

2002

3. [Untitled]

Author

B. Ya. Spivakov, Tatiana A. Maryutina, Rainer Wennrich, Svetlana Ignatova, Petr S. Fedotov, O. N. Katasonova, and J. Dahmen

Subjects

Centrifugal force, Coiled tubing, Field flow fractionation, Centrifuge, Countercurrent chromatography, Chemistry, Phase (matter), Extraction (chemistry), Analytical chemistry, Fractionation, Analytical Chemistry

Abstract

The potentialities of rotating coiled columns in countercurrent chromatography (CCC) and centrifugal field-flow fractionation (CFFF) are demonstrated. A rotating coiled column is a fluoroplastic or steel coil wound around a rigid cylindrical drum, which revolves about its axis and, at the same time, revolves around the central axis of the device called planet centrifuge. The stationary (liquid, solid, or heterogeneous) phase is retained in the column because of the centrifugal force field, and the mobile liquid phase is continuously pumped through the column. The methods for recovery, separation, and preconcentration of various trace elements in geological samples and high-purity substances with the use of two-phase liquid systems (CCC) are developed. Procedures are proposed for the continuous sequential extraction of various element species from soil and for the recovery of polycyclic aromatic hydrocarbons from sewage sludge with the use of natural suspensions or solid particulates as stationary phases. It is also shown that rotating coiled columns can be used in a new field, microparticle fractionation by CFFF.

Published

2002

4. Group separation of trace rare-earth elements by countercurrent chromatography for their determination in high-purity calcium chloride

Author

Tatiana A. Maryutina, Svetlana Ignatova, B. Ya. Spivakov, and V. K. Karandashev

Subjects

Lanthanide, chemistry.chemical_compound, Chromatography, Aqueous solution, Countercurrent chromatography, Chemistry, Nitric acid, Elution, Standard addition, Reagent, Extraction (chemistry), Biochemistry

Abstract

A method has been developed for the separation of the entire group of rare-earth elements from high-purity calcium chloride by countercurrent chromatography, and subsequent determination of the elements by ICP-MS. A solution of diphenyl[dibutylcarbamoylmethyl]phosphine oxide in chloroform (0.5 mol L(-1)) has been chosen as reagent for the extraction and preconcentration of trace rare-earth elements from aqueous 5% CaCl2 solution, 3 mol L(-1) in HNO3 and 0.1 mol L(-1) in HClO4. The analytes are back-extracted into a small volume of water and the aqueous eluate is subjected to ICP-MS measurements. The performance characteristics of the procedure developed have been checked by use of the standard addition technique and a real CaCl2 sample (Merck product) has been analyzed. The results obtained demonstrate the applicability of countercurrent chromatography to the determination of ultratrace elements.

Published

2001

5. [Untitled]

Author

A. B. Volynskii and Svetlana Ignatova

Subjects

Cadmium, Inorganic chemistry, Oxalic acid, chemistry.chemical_element, Manganese, Calcium, Analytical Chemistry, law.invention, Magnesium nitrate, chemistry.chemical_compound, Chromium, chemistry, law, Atomic absorption spectroscopy, Cobalt

Abstract

A procedure is developed for the direct determination of Cd, Co, Cr, Cu, Mn, and Ni in concentrated solutions of calcium chloride by electrothermal atomic absorption spectrometry. Ascorbic and oxalic acids and magnesium nitrate were examined as chemical modifiers. Oxalic acid was found to be the best modifier. Although an atomic absorption spectrometer with a background correction system of relatively low efficiency (deuterium lamp) was used, the elements under study can be reliably determined in the presence of oxalic acid at concentrations of calcium chloride in the solution up to 6%. Because cadmium is evaporated before the major part of the given matrix, it can be determined without a modifier.

Published

2001