|
|
Cationic fluorescence probes in a polyanion-surfactant system.
Mondek, Jakub ; Šmejkalová, Daniela (referee) ; Pekař, Miloslav (advisor)
In this bachelor thesis were studied properties of aqueous solutions of hyaluronan and celytrimethylamonnium bromid with help of acridine orange as fluorescence probe. At first, this thesis was focused on interactions of acridine orange and hyaluronan. Emision and excitation spectra of acridine orange were observed. Result of these measurement was bonding of acridine orange dimer to carboxylic group of hyaluronan. Next studied interaction was interaction of cetyltrimethyl amonium bromid with acridine orange – hyaluronan system. Result of these interaction was, that molecules of cationactive surfactant pushed away dimers of acridine orange and took place of dimer of acridine orange on carboxylic group of hyaluronan. Dimer of acridine orange was changed into monomers. The reason why this thesis was focused on study of aqueus solutions of hyaluronan with cationactive surfactant is benefit of hyaluronan – surfactant system in research of transport system for target distribution of drugs.
|
|
|
Diffusion properties of oppositely charged organic molecules in solutions of hydrophilic polyelectrolyte
Rýcová, Eva ; Márová, Ivana (referee) ; Mravec, Filip (advisor)
This work is focused on physical interactions of negatively charged polymers with small ionogenic fluorescent molecules. Trying to verify the presence of these interactions using fluorescence correlation spectroscopy (FCS) and provides a comprehensive view of the problem. The aim of this work is to observe the effect of concentration on the diffusion properties. P/D ratio, where P represents number of polymer binding sites and D number of dye binding sites, was chosen for this issue. Hyaluronate, sodium chondroitin sulfate and sodium polystyrene sulfonace were used as polymers and Acridine Orange, and Rhodamine 6G were chosen as fluorescent probes. The reason why this experiment uses these probes, was the assumption, that the positive charge occuring on the fluorescent probe will lead to the electrostatic interaction with the negatively charged polymer. As a result, the bond between acridine orange and polyelectrolyte was not clearly demonstrated, but the interaction with Rhodamine 6G have been proved.
|
|
|
Diffusion properties of oppositely charged organic molecules in solutions of hydrophilic polyelectrolyte
Rýcová, Eva ; Márová, Ivana (referee) ; Mravec, Filip (advisor)
This work is focused on physical interactions of negatively charged polymers with small ionogenic fluorescent molecules. Trying to verify the presence of these interactions using fluorescence correlation spectroscopy (FCS) and provides a comprehensive view of the problem. The aim of this work is to observe the effect of concentration on the diffusion properties. P/D ratio, where P represents number of polymer binding sites and D number of dye binding sites, was chosen for this issue. Hyaluronate, sodium chondroitin sulfate and sodium polystyrene sulfonace were used as polymers and Acridine Orange, and Rhodamine 6G were chosen as fluorescent probes. The reason why this experiment uses these probes, was the assumption, that the positive charge occuring on the fluorescent probe will lead to the electrostatic interaction with the negatively charged polymer. As a result, the bond between acridine orange and polyelectrolyte was not clearly demonstrated, but the interaction with Rhodamine 6G have been proved.
|
|
|
Cationic fluorescence probes in a polyanion-surfactant system.
Mondek, Jakub ; Šmejkalová, Daniela (referee) ; Pekař, Miloslav (advisor)
In this bachelor thesis were studied properties of aqueous solutions of hyaluronan and celytrimethylamonnium bromid with help of acridine orange as fluorescence probe. At first, this thesis was focused on interactions of acridine orange and hyaluronan. Emision and excitation spectra of acridine orange were observed. Result of these measurement was bonding of acridine orange dimer to carboxylic group of hyaluronan. Next studied interaction was interaction of cetyltrimethyl amonium bromid with acridine orange – hyaluronan system. Result of these interaction was, that molecules of cationactive surfactant pushed away dimers of acridine orange and took place of dimer of acridine orange on carboxylic group of hyaluronan. Dimer of acridine orange was changed into monomers. The reason why this thesis was focused on study of aqueus solutions of hyaluronan with cationactive surfactant is benefit of hyaluronan – surfactant system in research of transport system for target distribution of drugs.
|
guest ::
