B. Ya. Spivakov scite author profile

Countercurrent chromatography (CCC) is a generic term covering all forms of liquid-liquid chromatography that use a support-free liquid stationary phase held in place by a simple centrifugal or complex centrifugal force field. Biphasic liquid systems are used with one liquid phase being the stationary phase and the other being the mobile phase. Although initiated almost 30 years ago, CCC lacked reliable columns. This is changing now, and the newly designed centrifuges appearing on the market make excellent CCC columns. This review focuses on the advantages of a liquid stationary phase and addresses the chromatographic theory of CCC. The main difference with classical liquid chromatography (LC) is the variable volume of the stationary phase. There are mainly two different ways to obtain a liquid stationary phase using centrifugal forces, the hydrostatic way and the hydrodynamic way. These two kinds of CCC columns are described and compared. The reported applications of CCC in analytical chemistry and comparison with other separation and enrichment methods show that the technique can be successfully used in the analysis of plants and other natural products, for the separation of biochemicals and pharmaceuticals, for the separation of alkaloids from medical herbs, in food analysis, etc. On the basis of the studies of the last two decades, recommendations are also given for the application of CCC in trace inorganic analysis and in radioanalytical chemistry.

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Fractionation and characterization of nano- and microparticles in liquid media

Fedotov

Vanifatova

Shkinev

et al. 2011

Anal Bioanal Chem

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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.

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Liquid-phase polymer-based retention — the separation of metals by ultrafiltration on polychelatogens

Spivakov

Geckeler

Bayer

1985

Nature

127

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Membrane filtration studies of aquatic humic substances and their metal species: a concise overview Part 1. Analytical fractionation by means of sequential-stage ultrafiltration

Burba¹,

Aster²,

Nifant'eva

et al. 1998

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Liquid-phase polymer-based retention, a new method for separation and preconcentration of elements

Geckeler¹,

Bayer²,

Spivakov³

et al. 1986

Analytica Chimica Acta

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Accelerated fractionation of heavy metals in contaminated soils and sediments using rotating coiled columns

Fedotov

Заварзина

Spivakov

et al. 2002

J. Environ. Monitor.

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A new approach to performing an accelerated sequential extraction of trace elements from solid samples has been proposed. It has been shown that rotating coiled columns (RCC) earlier used in counter-current chromatography can be successfully applied to the dynamic leaching of heavy metals from soils and sediments. A solid sample was retained in the rotating column as the stationary phase under the action of centrifugal forces while different eluents (aqueous solutions of complexing reagents, mineral salts and acids) were continuously pumped through. The procedure developed is time saving and requires only 4-5 h instead of the several days needed for traditional sequential extraction (TSE), complete automation being possible. Losses of solid sample are minimal. In most cases the recoveries of readily bioavailable and leachable forms of Pb, Zn, and Cd are higher, if a dynamic extraction in RCC is used. Since naturally occurring processes are always dynamic, continuous extraction in RCC may help to estimate the contents of leachable forms and their potential risk for the environment more correctly than batch TSE. The Kersten-Foerstner and McLaren-Crawford leaching schemes have been compared, the former has been found to be preferable.

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On-line fractionation and characterization of aquatic humic substances by means of sequential-stage ultrafiltration

Burba¹,

Shkinev

Spivakov

1995

Fresenius J Anal Chem

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Liquid-Phase Polymer-Based Retention (Lpr)-A New Method for Selective Ion Separation

Geckeler

Shkinev

Spivakov

1988

Separation and Purification Methods

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B. Ya. Spivakov

Countercurrent chromatography in analytical chemistry (IUPAC Technical Report)

Fractionation and characterization of nano- and microparticles in liquid media

Liquid-phase polymer-based retention — the separation of metals by ultrafiltration on polychelatogens

Membrane filtration studies of aquatic humic substances and their metal species: a concise overview Part 1. Analytical fractionation by means of sequential-stage ultrafiltration

Liquid-phase polymer-based retention, a new method for separation and preconcentration of elements

Accelerated fractionation of heavy metals in contaminated soils and sediments using rotating coiled columns

On-line fractionation and characterization of aquatic humic substances by means of sequential-stage ultrafiltration

Liquid-Phase Polymer-Based Retention (Lpr)-A New Method for Selective Ion Separation

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