Department of Analytical Chemistry of Saint Petersburg State University Celebrates One Hundred and Fifty Years Anniversary: International Year of the Periodic Table of Chemical Elements.

The year 2019 marks the 150th year of the founding of analytical chemistry department at St. Petersburg State University and of the founding of the periodic table of chemical elements as proposed by Professor Dmitry Mendeleev. 2019 has been decreed by chemists as the "International Year of the Periodic Table" in celebration of these historical events.

Modification of hydrophobic sorbents by cobalt chloride in order to concentrate low molecular polar organic substances from the air for subsequent gas chromatographic determination.

The article presents a new method of modification of hydrophobic sorbents. To improve sorption pre-concentration of polar organic compounds in the air analysis, these sorbents are coated with cobalt chloride. This modification increases retention volume of lower alcohols by 5-10 fold as compared to that of unmodified sorbents and solves the problem of gas-chromatographic determination at 1-2 ppb (micrograms/m(3)) by using the most common flame ionization detector.

Compositional surface-layered sorbents for pre-concentration of organic substances in the air analysis.

We juxtapose methods of synthesis of non-polar surface-layered sorbents on the platform of a carrier, which combines macro-porous coarse-dispersed polytetrafluoroethylene with micro-dispersed activated carbon. Further, we present data about the sorption properties of the said materials alongside perspectives of their analytical applications. Our study established that with respect to efficacy of dynamic sorption from gaseous phases these sorbents outperform bulk-porous analogues in their normal, granular form.

The properties of chromatomembrane cells in flow systems coupled to gas chromatography-analysis of volatile organic compounds.

The economical use of modern analytical instrumentation requires an online-coupling of efficiently working flow-systems which automate both sampling and sample pretreatment. Whenever extraction and preconcentration procedures are necessary the application of chromatomembrane cells proved to be very worthwhile. On this occasion the analyte exchange takes place inside a block of biporous PTFE wherein the two immiscible phases come into contact with each other.

Dissolved oxygen removal from aqueous media by the chromatomembrane method.

The possibilities of the new chromatomembrane method in the removal of oxygen dissolved in water are studied. The scheme of the water deoxygenation process is determined. The new reagent-free method allows production of water with oxygen content at the level of a few ppb.