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The study of the association behavior of the amphiphilic copolymers in solutions containing low molar compounds by means of computer simulations.
Šindelka, Karel ; Limpouchová, Zuzana (advisor) ; Slavíček, Petr (referee) ; Vondrášek, Jiří (referee)
Title: The study of the association behaviour of the amphiphilic copolymers in solutions containing low molar compounds by means of computer simulations. Author: Mgr. Karel Šindelka Department: Faculty of Science, Charles University Supervisor: Doc. Ing. Zuzana Limpouchová, Csc. Abstract This doctoral thesis focuses on the study of electrostatic self- and co-assembly in complex polymer solutions containing polyelectrolyte (PE) block copolymers together with surfactants, neutral homopolymers, or oppositely charged PEs using the dissipative particle dynamics (DPD). It was shown that the electro- static self-assembly depends not only on the cooperative interactions of oppo- sitely charged PE chains, but also on the amphiphilicity of PE species or on the polymer block compatibility, among other properties. PEs with incompatible blocks create well-defined core-shell structures, while large ill-defined crew-cut aggregates form from PEs with compatible blocks In non-stoichiometric mixtures of PEs with incompatible blocks, co-assembled nanoparticles are smaller than in stoichiometric mixtures and are charged. The destabilization of larger aggregates depends on how the PE charge surplus is introduced: the effect is strongest when the density of the surplus PE charge on the PE chains is increased and weakest when the...
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Computer simulations of conformational behavior of block copolymers in selective solvents
Šindelka, Karel ; Limpouchová, Zuzana (advisor) ; Kuldová, Jitka (referee)
The presented bachelor thesis deals with the study of the conformational be- haviour of diblock copolymers in the selective solvent. The polymer solution was modelled using a coarse-grained model and is simulated using dissipative particle dynamics (DPD). An original C-code for DPD simulations together with a new software package for processing of simulation data was developed. Functionality of the code and software were tested for two systems. The first system corre- sponded to a linear homopolymer in a solvent and the scaling laws for homopoly- mer in dilute solution were reproduced. The second system represented diblock copolymers in selective solvents and micellar behaviour simulated with the de- veloped code agreed with simulations by Sheng et al. Then, the self-assembly of long copolymer chains in selective solvents that mimics a block copolymer of poly(methacrylic acid) and poly(ethylene oxide) in aqueous solution at pH 1 was studied for different polymer concentrations. The simulation results provided valuable insight into the studied system and serve as a good starting point for DPD simulations of this system with added surfactants and at different values of pH, where the electrostatic interactions become important.
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The study of the association behavior of the amphiphilic copolymers in solutions containing low molar compounds by means of computer simulations.
Šindelka, Karel
Title: The study of the association behaviour of the amphiphilic copolymers in solutions containing low molar compounds by means of computer simulations. Author: Mgr. Karel Šindelka Department: Faculty of Science, Charles University Supervisor: Doc. Ing. Zuzana Limpouchová, Csc. Abstract This doctoral thesis focuses on the study of electrostatic self- and co-assembly in complex polymer solutions containing polyelectrolyte (PE) block copolymers together with surfactants, neutral homopolymers, or oppositely charged PEs using the dissipative particle dynamics (DPD). It was shown that the electro- static self-assembly depends not only on the cooperative interactions of oppo- sitely charged PE chains, but also on the amphiphilicity of PE species or on the polymer block compatibility, among other properties. PEs with incompatible blocks create well-defined core-shell structures, while large ill-defined crew-cut aggregates form from PEs with compatible blocks In non-stoichiometric mixtures of PEs with incompatible blocks, co-assembled nanoparticles are smaller than in stoichiometric mixtures and are charged. The destabilization of larger aggregates depends on how the PE charge surplus is introduced: the effect is strongest when the density of the surplus PE charge on the PE chains is increased and weakest when the...
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The study of the association behavior of the amphiphilic copolymers in solutions containing low molar compounds by means of computer simulations.
Šindelka, Karel
Title: The study of the association behaviour of the amphiphilic copolymers in solutions containing low molar compounds by means of computer simulations. Author: Mgr. Karel Šindelka Department: Faculty of Science, Charles University Supervisor: Doc. Ing. Zuzana Limpouchová, Csc. Abstract This doctoral thesis focuses on the study of electrostatic self- and co-assembly in complex polymer solutions containing polyelectrolyte (PE) block copolymers together with surfactants, neutral homopolymers, or oppositely charged PEs using the dissipative particle dynamics (DPD). It was shown that the electro- static self-assembly depends not only on the cooperative interactions of oppo- sitely charged PE chains, but also on the amphiphilicity of PE species or on the polymer block compatibility, among other properties. PEs with incompatible blocks create well-defined core-shell structures, while large ill-defined crew-cut aggregates form from PEs with compatible blocks In non-stoichiometric mixtures of PEs with incompatible blocks, co-assembled nanoparticles are smaller than in stoichiometric mixtures and are charged. The destabilization of larger aggregates depends on how the PE charge surplus is introduced: the effect is strongest when the density of the surplus PE charge on the PE chains is increased and weakest when the...
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The study of the association behavior of the amphiphilic copolymers in solutions containing low molar compounds by means of computer simulations.
Šindelka, Karel ; Limpouchová, Zuzana (advisor) ; Slavíček, Petr (referee) ; Vondrášek, Jiří (referee)
Title: The study of the association behaviour of the amphiphilic copolymers in solutions containing low molar compounds by means of computer simulations. Author: Mgr. Karel Šindelka Department: Faculty of Science, Charles University Supervisor: Doc. Ing. Zuzana Limpouchová, Csc. Abstract This doctoral thesis focuses on the study of electrostatic self- and co-assembly in complex polymer solutions containing polyelectrolyte (PE) block copolymers together with surfactants, neutral homopolymers, or oppositely charged PEs using the dissipative particle dynamics (DPD). It was shown that the electro- static self-assembly depends not only on the cooperative interactions of oppo- sitely charged PE chains, but also on the amphiphilicity of PE species or on the polymer block compatibility, among other properties. PEs with incompatible blocks create well-defined core-shell structures, while large ill-defined crew-cut aggregates form from PEs with compatible blocks In non-stoichiometric mixtures of PEs with incompatible blocks, co-assembled nanoparticles are smaller than in stoichiometric mixtures and are charged. The destabilization of larger aggregates depends on how the PE charge surplus is introduced: the effect is strongest when the density of the surplus PE charge on the PE chains is increased and weakest when the...
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Computer simulations of conformational behavior of block copolymers in selective solvents
Šindelka, Karel ; Limpouchová, Zuzana (advisor) ; Kuldová, Jitka (referee)
The presented bachelor thesis deals with the study of the conformational be- haviour of diblock copolymers in the selective solvent. The polymer solution was modelled using a coarse-grained model and is simulated using dissipative particle dynamics (DPD). An original C-code for DPD simulations together with a new software package for processing of simulation data was developed. Functionality of the code and software were tested for two systems. The first system corre- sponded to a linear homopolymer in a solvent and the scaling laws for homopoly- mer in dilute solution were reproduced. The second system represented diblock copolymers in selective solvents and micellar behaviour simulated with the de- veloped code agreed with simulations by Sheng et al. Then, the self-assembly of long copolymer chains in selective solvents that mimics a block copolymer of poly(methacrylic acid) and poly(ethylene oxide) in aqueous solution at pH 1 was studied for different polymer concentrations. The simulation results provided valuable insight into the studied system and serve as a good starting point for DPD simulations of this system with added surfactants and at different values of pH, where the electrostatic interactions become important.
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