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Identifier | 000338046 | ||||||
Title | pH-responsive microgels: polyelectrolyte, homopolymer and polyampholyte mix and core-shell particles | ||||||
Author | Χριστοδουλάκης, Κωνσταντίνος Εμμ | ||||||
Thesis advisor | Βαμβακάκη, Μαρία | ||||||
Abstract |
The PMAA-based microgel particles swell at high pH due to the ionization of the carboxylic acid units, while at low pH values the acidic moieties become neutral and the particles shrink. The effective equilibrium constants pKα’s of the PDEA and PMAA microgel particles were calculated from potentiometric titration curves of the microgel dispersions. The pH-responsive character of the microgel particles and its effect on the particle size of the microgels was examined by dynamic light scattering (DLS) as a function of the degree of ionization of the monomer units. The effect of the cross-link density on the degree of swelling of the PDEA microgels was also investigated. Scanning and Transmission Electron Microscopy studies verified the spherical shape and the uniform size distribution of the particles. In the second part of our study mixed polyampholyte microgel particles comprising both DEA and MAA units randomly distributed within the particle have been prepared. Potentiometric titrations were used to determine the ionization range of the microgels. The size of the mixed microgels particles as a function of the degree of ionization of the monomer units was studied by DLS. The microgels swell at both high and low pH when the particle net charge is negative or positive, respectively, while collapsed microgel particles were found at the isoelectric point at zero net charge when the hydrophobic interactions dominate. Finally, we have synthesized microgel particles with a core-shell topology comprising either a PDEA core and a PMAA shell or a PMAA core and a PDEA shell. Potentiometric titration curves revealed the independent ionization range of the core and the shell of the particles, in contrast to the mixed polyampholyte microgel particles discussed above which exhibit a common ionization region for the basic and acidic monomer units. The swelling properties of the microgel particles as a function of the solution pH were examined by DLS. The core and the shell of the particles were found to swell at a different pH range resulting in microgel particles in which the overall size, the net charge, the softness and the hydrophylicity of the core and the shell can be tuned independantly. SEM showed spherical particles of a narrow size distribution, while TEM verified their core-shell topology by selectively staining the core or the shell of the microgels. These core-shell microgels carrying different responsive functionalities in the core and the shell of the particle are very attractive materials for use in numerousapplications such as targeted drug-delivery, chemical separations, etc. |
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Language | English | ||||||
Issue date | 2008-12-04 | ||||||
Collection | School/Department--School of Sciences and Engineering--Department of Materials Science and Technology--Post-graduate theses | ||||||
Type of Work--Post-graduate theses | |||||||
Permanent Link | https://elocus.lib.uoc.gr//dlib/b/6/8/metadata-dlib-4c0425583e3a561daaa8a9dd84f1c0cc_1236759746.tkl | ||||||
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