Advanced analytical methods for the analysis of complex polymers prepared by RAFT and RITP

dc.contributor.advisorPasch, Haralden_ZA
dc.contributor.authorWright, Trevor Gavinen_ZA
dc.contributor.otherStellenbosch University. Faculty of Science. Dept. of Chemistry and Polymer Science.en_ZA
dc.date.accessioned2015-05-20T09:27:08Z
dc.date.available2015-05-20T09:27:08Z
dc.date.issued2015-04en
dc.descriptionThesis (PhD)--Stellenbosch University, 2015.en_ZA
dc.description.abstractENGLISH ABSTRACT: Synthetic polymers are complex compounds that have multiple distributions with regard to molar mass, chemical composition, functionality and molecular architecture. Therefore, the molecular complexity of these compounds can only be analysed using a combination of analytical techniques. Well-defined complex polymers can be prepared by different types of living radical polymerisation, including reversible addition–fragmentation chain transfer polymerisation (RAFT) and reverse iodine transfer polymerisation (RITP). Using these techniques, several different homopolymers and copolymers have been prepared. However, there is still space for some more extended research. Many different types of multifunctional RAFT agents have been reported in literature. A tetrafunctional RAFT agent was prepared in our laboratory and used for the first time in the polymerisation of styrene. The polymerisation reaction was followed using in situ 1H nuclear magnetic resonance (NMR) and the molar masses of the resultant polymers were determined using size exclusion chromatography (SEC). The molar masses of the star-shaped polystyrenes (PS) were found to be less than the theoretical molar masses. This was due to the fact that SEC was calibrated with linear PS standards, while the samples under investigation are branched. Linear and branched polymers have different hydrodynamic volumes at similar molar masses. In order to prove that the star-shaped polymers were in fact four-armed, the samples were cleaved by aminolysis to yield the linear PS arms. The molar masses of the arms were in agreement with the theoretical arm molar masses based in the fourarmed structure. RITP is a relatively new living radical polymerisation technique. Various monomers have been prepared using RITP, including acrylates, methacrylates and styrene. The polymers formed using this technique have been characterised by techniques such as SEC, NMR and mass spectrometry (MS). However, very little advanced characterisation work has been done on polymers synthesised via RITP. Polystyrene-block-poly(n-butyl acrylate) (PS-b-PBA) block copolymers were prepared via RITP and the microstructure analysed by in situ NMR and other advanced analytical techniques. The chromatograms from gradient HPLC of the PS-b-PBA block copolymers showed a separation based on chemical composition. The preparation of deuterated polymers via RITP has not been reported in literature. Hydrogenous-polystyrene-block-deuterated-polystyrene (hPS-b-dPS) was synthesised via RITP and analysed using liquid chromatography at critical conditions. An isotopic separation was achieved when critical conditions were established for hydrogenous PS (h-PS). A separation of the block copolymer from the first block was also achieved under chromatographic conditions where the block copolymer eluted in SEC mode while the first block eluted in LAC mode. The separation according to the block structure was confirmed by two-dimensional liquid chromatography.en_ZA
dc.description.abstractAFRIKAANSE OPSOMMING: Sintetiese polimere is komplekse verbindings wat meervoudige verspreidings ten opsigte van molêre massa, chemiese samestelling, funksionaliteit en molekulêre argitektuur. Daarom kan die molekulêre kompleksiteit van hierdie verbindings net ontleed word met behulp van 'n kombinasie van analitiese tegnieke. Goed-gedefinieerde komplekse polimere kan voorberei word deur verskillende soorte lewende radikaal polimerisasie, insluitend omkeerbare addisie-fragmentasie kettingoordrag polimerisasie (OAFO) en omgekeerde jodium oordrag polimerisasie (OJOP). Met behulp van hierdie tegnieke, was verskeie homopolimere en kopolimeer opgestel. Maar daar is nog plek vir nog uitgebreide navorsing. Baie verskillende tipes multifunksionele OAFO agente is aangemeld in die letterkunde. Ons het 'n nuwe vier-armige OAFO agent in ons laboratorium voorberei en dit was vir die eerste keer in die polimerisasie van stireen gebruik. Die polimerisasie reaksie is gevolg met behulp van in situ 1H kernmagnetieseresonans (KMR) en die molêre massas van die gevolglike polimere was bepaal deur grootteuitsluitings chromatografie (SEC). Die molêre massas van die ster-polistireen (PS) is bevind as minder as teoretiese molêre massas. Dit is omdat SEC instrumente gekalibreer word met lineêre PS standaarde, terwyl die monsters wat tans ondersoek word vertakte polimere is. Lineêre en vertakte polimere het verskillende hidrodinamiese volumes by soortgelyke molêre massas. Ten einde te bewys dat die ster polimere in werklikheid vier-armig is, is die monsters gesny deur ‘n aminolisasiereaksie om die lineêre PS arms te lewer. Die molêre massas van die arms was ooreenkomstig met die teoretiese arm molêre massas gebaseer op die vier-armige struktuur. OJOP is 'n relatiewe nuuts lewende radikaal polimerisasie tegniek. Verskeie monomere is opgestel deur OJOP, insluitend akrilate, metakrilate en stireen. Die polimere wat gevorm is deur middel van die tegniek is al gekenmerk deur tegnieke soos SEC, KMR en massaspektrometrie (MS). Tog is daar baie min gevorderde karakterisering werk gedoen oor polimere gesintetiseer deur middel van OJOP. Polistireen-blok-poli(n-butylacrylaat) (PS-b-PBA) blokkopolimere was voorberei deur middel van OJOP en die mikrostruktuur ontleed met behulp van gevorderde analitiese tegnieke. Die chromatogramme van gradiënt HPLC van die PS-b-PBA blokkopolimere het 'n skeiding ondergaan gebaseer op die chemiese samestelling. Die voorbereiding van gedeutereerde polimere deur middel van OJOP word nie in die letterkunde gevind nie. Gehidrogeneerde-polistireen-blok-gedeutereerde-polistireen (hPS-b-dPS) is gesintetiseer deur middel van OJOP en ontleed met behulp van vloeistofchromatografie onder kritiese kondisies. 'n Isotopiese skeiding was bereik wanneer kritiese kondisies gestig is vir gehidrogeneerde PS (h-PS).'n Skeiding van die blok kopolimeer van die eerste blok was ook bereik onder chromatografiese omstandighede waar die blok kopolimeer elueer in SEC terwyl die eerste blok elueer in LAC. Die skeiding volgens die blok struktuur was bevestig deur twee-dimensionele vloeistofchromatografie.af_ZA
dc.format.extentxxi, 102 pages : colour illustrations
dc.identifier.urihttp://hdl.handle.net/10019.1/96744
dc.language.isoen_ZAen_ZA
dc.publisherStellenbosch : Stellenbosch Universityen_ZA
dc.rights.holderStellenbosch Universityen_ZA
dc.subjectSynthetic polymers -- Analysisen_ZA
dc.subjectComplex compoundsen_ZA
dc.subjectAddition polymerizationen_ZA
dc.subjectUCTDen_ZA
dc.titleAdvanced analytical methods for the analysis of complex polymers prepared by RAFT and RITPen_ZA
dc.typeThesisen_ZA
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