Testování a optimalizace podmínek tlakového modulátoru pro GCxGC analýzy / Testing and optimization of pressure modulator conditions for GCxGC analyses

Ston, Martin

January 2012

Pulse (fluid) pressure modulator was constructed for comprehensive gas chromatography. Optimal conditions of its connection to the gas chromatograph with a flame ionization detector were found for the analysis of selected mixture of volatile solvents. Pressure interdependences in the system and relations between dimensions of modulator capillaries and columns have been evaluated with respect to the length of the modulation period and pulse duration. Two non-polar columns (15 m × 0.25 mm DB-5MS, 10 m × 0.15 mm CP-Sil 5 CB) of the same stationary phase were tested to compare the separation efficiency in the first dimension and the DB-5MS column was selected. The Supelcowax 10 columns of the lengths 1, 2 and 3 m were compared in the second dimension. It was found that using of 3 m length column lead to the extension of analysis time, however the increase in separation efficiency in the second dimension was very evident. The experimental measurements have shown that the selected parameters for the evaluation of the separation efficiency (the peak capacity and total resolution product) were inappropriate. Gasoline, kerosene and diesel fuel were analyzed as examples of real samples. Amount of added ethanol as a biofuel additive was determined in the gasoline sample. Pulse pressure modulator was modified...

Development of Polymer Monoliths for the Analysis of Peptides and Proteins

Gu, Binghe

04 December 2006

Several novel polymer monoliths for the analysis of peptides and proteins were synthesized using polyethylene glycol diacrylate (PEGDA) as crosslinker. Photo-initiated copolymerization of polyethylene glycol methyl ether acrylate and PEGDA yielded an inert monolith that could be used for size exclusion liquid chromatography of peptides and proteins. This macroscopically uniform monolith did not shrink or swell in either water or tetrahydrofuran. More importantly, it was found to resist adsorption of both acidic and basic proteins in aqueous buffer without any organic solvent additives. A strong cation-exchange polymer monolith was synthesized by copolymerization of 2-acrylamido-2-methyl-1-propanesulfonic acid (AMPS) and PEGDA. A ternary porogen (water, methanol and ethyl ether) was found suitable to prepare a flow-through monolith with moderate pressure drop in aqueous buffer. The resulting monolith showed excellent ion exchange capillary liquid chromatography of peptides using a simple salt gradient. Extremely narrow peaks were obtained for the analysis of synthetic peptides, natural peptides and a protein digest. A peak capacity of 179 was achieved. Although the poly(AMPS) monolith demonstrated extraordinary performance, one main drawback of this monolith was its relatively strong hydrophobicity. A decrease in hydrophobicity was achieved by using more hydrophilic monomers (e.g., sulfoethyl methacrylate or vinyl sulfonic acid). The most hydrophilic poly(vinyl sulfonic acid) monolith provided high resolution cation-exchange liquid chromatography of protein standards and lipoproteins. Use of the new PEGDA biocompatible crosslinker over the conventional ethylene glycol dimethacrylate crosslinker for the preparation of polymer monoliths was found to be advantageous for the analysis of biological compounds in several chromatography modes.

monolith

proteins

peptides

biocompatible

liquid chromatography

size exclusion chromatography

strong cation-exchange chromatography

polyethylene glycol diacrylate

sulfoethyl methacrylate

vinyl sulfonic acid

capillary columns

peak capacity

Biochemistry

Chemistry

Vícerozměrné separace v kapalné fázi / Multidimensional Liquid Phase Separations

Šesták, Jozef

January 2015

This dissertation is dedicated to the topic of multidimensional liquid phase separations. This separation techniques are developed for analysis of complex samples containing thermally labile, low volatile or high molecular weight components that can´t be analysed by two-dimensional (2D) gas chromatography. Concepts of peak capacity and orthogonality are explained and various methods of their determination are stated in theoretical part of dissertation. High performance column liquid chromatography (HPLC) and high performance capillary electrophoresis (HPCE) are suggested as the most suitable methods for automated multidimensional liquid phase separations on-line coupled to mass spectrometry. Configuration of simplified miniaturized liquid chromatograph is described in experimental part of this thesis. Original concept of the system has been extended by simple mobile phase gradient generation technique. Correct function was demonstrated on repeatable separation of alkylphenones, peptides, nitroaromatics, and nitroesters. This system has been utilized as a base for a couple of simple two-dimensional separation platforms for HILIC-MALDI-MS analysis of glycans, for separation of peptides based on off-line coupling of isoelectric focusing and capillary liquid chromatography, and finally for on-line IEC×RPLC, RPLC×RPLC, and HILIC×RPLC two-dimensional liquid chromatography. Correct operation of submitted platforms has been proved.