V. M. Shkinev
Russian Academy of Sciences
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Featured researches published by V. M. Shkinev.
Analytica Chimica Acta | 1986
Kurt E. Geckeler; Ernst Bayer; B. Ya. Spivakov; V. M. Shkinev; G.A. Vorob'eva
Abstract A method based on the retention of inorganic ions by water-soluble polymeric reagents (liquid-phase polymer-based retention) in a membrane filtration cell is suggested for the separation and preconcentration of various elements. The preseparated elements remain in the aqueous solution, which is convenient for most instrumental methods of completing the analysis. The water-soluble poly(ethyleneimine) and its thiourea and methylated derivatives are shwon to be useful for retention of different inorganic ions and their separation from elements not bound to the polymer reagent.
Talanta | 1998
Peter Burba; Brit Aster; T.I. Nifant'eva; V. M. Shkinev; B. Ya. Spivakov
A concise overview (75 references) of the analytical fractionation of aquatic humic substances using sequential-stage ultrafiltration is presented. First, humic substances in aquatic environments and actual problems connected with their fractionation and analysis are briefly considered. The molecular size classification of dissolved humic substances by means of multistage ultrafiltration, with special emphasis on on-line techniques, is the focal point of the discussion. In particular, the capabilities of ultrafiltration for the size fractionation and characterization of species formed between colloidal humic substances and pollutants (e.g. metals) are stressed.
Analytical and Bioanalytical Chemistry | 2011
P. S. Fedotov; N. G. Vanifatova; V. M. Shkinev; Boris Ya. Spivakov
Submicron and micron particles present in liquid environmental, biological, and technological samples differ in their dimensions, shape, mass, chemical composition, and charge. Their properties cannot be reliably studied unless the particles are fractionated. Synthetic particles applied as components of analytical systems may also need preliminary fractionation and investigation. The review is focused on the methods for fractionation and characterization of nanoparticles and microparticles in liquid media, the most representative examples of their application, and the trends in developing novel approaches to the separation and investigation of particles. Among the separation techniques, the main attention is devoted to membrane filtration, field-flow fractionation, chromatographic, and capillary electrokinetic methods. Microfluidic systems employing the above-mentioned and other separation principles and providing a basis for the fabrication of lab-on-chip devices are also examined. Laser light scattering methods and other physical techniques for the characterization of particles are considered. Special attention is given to “hyphenated” techniques which enable the separation and characterization of particles to be performed in online modes.
Talanta | 1999
T.I. Nifant’eva; V. M. Shkinev; B. Ya. Spivakov; Peter Burba
The assessment of conditional stability constants of aquatic humic substance (HS) metal complexes is overviewed with special emphasis on the application of ultrafiltration methods. Fundamentals and limitations of stability functions in the case of macromolecular and polydisperse metal-HS species in aquatic environments are critically discussed. The review summarizes the advantages and application of ultrafiltration for metal-HS complexation studies, discusses the comparibility and reliability of stability constants. The potential of ultrafiltration procedures for characterizing the lability of metal-HS species is also stressed.
Analytica Chimica Acta | 1985
V. M. Shkinev; B. Ya. Spivakov; G.A. Vorob'eva; Yu. A. Zolotov
Abstract Dialkyltin salts are suitable as extractants for various oxygen-containing anions. They are particulary powerful for the extraction of arsenate and phosphate ions, but are also useful for liquid-liquid extraction of anions of dibasic acids. It is shown that the high extraction power of these dialkyltin complexes can be explained by formation of innersphere complexes with the extracted anions. A method is proposed for the separation of arsenic, phosphorus and silicon using dialkyltin salts. Applications to the extraction-spectrophotometric determination of phosphorus and arsenic in vanadium and steel, and to extraction/atomic absorption determinations of arsenic and phosphorus in metals and alloys are surveyed. The use of the dialkyltin salts for the neutron activation determination of arsenic and as active components in membranes of ion-selective electrodes for phosphorus(V) and arsenic(V) is demonstrated.
Analytica Chimica Acta | 2002
A. G. Zavarzina; Vladimir V. Demin; T.I. Nifant’eva; V. M. Shkinev; T. V. Danilova; B. Ya. Spivakov
The possibility of extraction and fractionation of humic acid (HA) in the aqueous biphasic systems (ABS) was shown for the first time. The 10% PEG–10% (NH 4)2SO4–H2O and 5% PEG–7.5% dextran (or dextran sulphate, sodium salt)–H2O systems were used. HA originated from peat, soddy-podzolic soil and chernozem were studied. The distribution coefficients were measured for HA of different origin, size of the molecules, molecular weights (MW) of the polymers and pH of the system. The PEG–(NH4)2SO4–H2O system was found to be better for preconcentration and isolation of HA, whereas the PEG–dextran–H2O system is preferable for HA fractionation. The extractability of HA in ABS increases with increasing the MW of HA molecules. Peat HA are extracted in ABS with higher distribution coefficients compared with chernozem and soddy-podzolic soil HA. It is consistent with higher hydrophobicity of peat HA revealed by hydrophobic interaction chromatography. ABS are promising for HA separation into fractions that differ in their hydrophobic/hydrophilic properties as well as for comparing HA of different origin by their relative hydrophobicity.
Talanta | 1989
V. M. Shkinev; V.N. Gomolitskii; B. Ya. Spivakov; Kurt E. Geckeler; Ernst Bayer
A new method for the determination of metals in waters by flame atomic-absorption spectrometry is described. The metals are retained by water-soluble polymers in a membrane filtration cell and the factors which influence their determination are discussed. The method has been applied to the determination of Ni, Cu, Zn, Hg and Cd in drinking and river water with poly(ethyleneimine) and its thiourea derivative as complexing polymers. The metals were determined in the aqueous concentrate after a 250-fold preconcentration by 2% polymer solution at pH 7. The metal recoveries were at least 92%, and the limits of detection (ng/mg) were 0.012 for Cu, 0.006 for Zn, 0.03 for Ni, 0.004 for Cd and 0.0001 for Hg (cold vapour method). When a new type of membrane filtration cell is used even higher preconcentration factors can be achieved and lower concentrations can be determined.
Mikrochimica Acta | 1984
T. I. Zvarova; V. M. Shkinev; G.A. Vorob'eva; B. Ya. Spivakov; Yu. A. Zolotov
SummaryCapabilities of liquid-liquid extraction systems without organic solvents have been examined. Ternary poly(ethylene glycol)-inorganic salt-water systems have been proposed for extraction of complexes of metals with water-soluble organic reagents and inorganic ligands.Phase diagrams for such two-phase systems have been studied. The distribution of some inorganic ions and organic reagents in PEG 2000-ammonium sulphate systems has been examined at different pH values of the salt-phase. It is shown that the distribution coefficients are lower than unit for all the cations studied while reagents, containing aromatic rings, are extracted into the PEG-phase with distribution coefficients higher than one hundred. Conditions are reported which provide effective extraction of iron(III) in presence of several water-soluble photometric reagents. Extraction in the PEG 2000-ammonium sulphate-water system in presence of ammonium thiocyanate and sulphuric acid has been studied. Copper, zinc, cobalt, iron(III), indium, molybdenum(V) are extracted into the PEG-phase with high distribution coefficients.ZusammenfassungDie Eignung von Flüssig-flüssig-Extraktions-Systemen ohne organisches Lösungsmittel wurde geprüft. Ternäre Systeme aus Polyethylenglykol-anorganischem Salz-Wasser wurden für die Extraktion von Metallkomplexen mit wasserlöslichen organischen Reagenzien und anorganischen Liganden vorgeschlagen.Die Phasendiagramme solcher Zwei-Phasen-Systeme wurden untersucht. Die Verteilung einiger anorganischer Ionen und organischer Reagenzien in Polyethylenglykol (PEG) 2000-Ammoniumsulfat-Systemen wurde bei verschiedenem pH der Salzphase geprüft. Dabei ergab sich, daß die Verteilungskoeffizienten für alle untersuchten Kationen geringer sind als eins, während Reagenzien, die einen aromatischen Ring enthalten, in die PEG-Phase mit Verteilungskoeffizienten über 100 extrahiert werden. Versuchsbedingungen für die wirkungsvolle Extraktion von Fe(III) in Gegenwart verschiedener wasserlöslicher photometrischer Reagenzien wurden angegeben. Die Extraktion mit PEG 2000-Ammoniumsulfat-Wasser in Gegenwart von Ammoniumrhodanid und Schwefelsäure wurde untersucht. Kupfer, Zink, Kobalt, Eisen (III), Indium und Molybdän werden mit hohem Verteilungskoeffizienten in die PEG-Phase extrahiert.
Talanta | 2001
T.I. Nifant'eva; Peter Burba; O. M. Fedorova; V. M. Shkinev; B. Ya. Spivakov
This study exhibits that size fractionation of humic substances (HS) and their metal complexes by ultrafiltration is an efficient procedure for simultaneous determination of stability constants. Using sequential-stage ultrafiltration and a radiotracer technique the HS-Cu and HS-Zn complexes studied can gently be size-fractionated and their free metal fractions simply be discriminated. The conditional stability constants Ki obtained for size fractions of these HS metal complexes exhibit a clear molecular size dependence. Accordingly, the highest Ki values (6.6 for Zn and 6.4 for Cu) are found in the HS fractions of >105 kDa. Moreover, the overall stability constants K found for Cu (log K=5.5) and Zn complexes (log K=4.5) of the aquatic HS complexes studied are quite comparable to those reported in the literature.
Journal of Radioanalytical and Nuclear Chemistry | 1985
V. M. Shkinev; N.P. Molochnikova; T. I. Zvarova; B. Ya. Spivakov; B. F. Myasoedov; Yu. A. Zolotov
The distribution of lanthanides and actinides in a two-phase liquid system obtained by mixing an aqueous solution of poly(ethylene glycol) and ammonium sulfate has been studied as a function of pH. Conditions are reported which provide the heterogeneity of the system suggested. It is shown that thorium and plutonium can be separated from transplutonium elements and lanthanides. Conditions have been chosen for quantitative group extraction of actinides and lanthanides.