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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
531

Structures et propriétés rhéologiques d'hydrogels à dynamique contrôlée obtenus par l'auto-assemblage de copolymères à blocs amphiphiles

Charbonneau, Céline 19 October 2012 (has links) (PDF)
Les copolymères à blocs amphiphiles sont des macromolécules composées d'au moins un bloc hydrophile lié chimiquement à un ou plusieurs blocs hydrophobes. En milieu aqueux, ils s'auto-associent pour former des micelles dont les cœurs constitués des blocs hydrophobes sont protégés de l'eau par une couronne constituée des blocs hydrophiles hydratés. La majorité des copolymères à blocs amphiphiles génèrent dans l'eau des micelles " gelées " ne présentant aucun échange de chaînes entre elles. Ceci vient du fait que l'énergie nécessaire pour extraire un bloc hydrophobe du cœur des objets est beaucoup trop importante. Par conséquent, les caractéristiques des micelles sont plus contrôlées cinétiquement que thermodynamiquement. Pour diminuer cette énergie nous avons incorporé des unités hydrophile acide acrylique (AA) dans le bloc hydrophobe de poly(acrylate de n-butyle) (PnBA). L'incorporation de 50% molaire d'unités AA dans le bloc hydrophobe conduit à la formation d'agrégats pH-sensibles dans le cas du dibloc PAA-b-P(AA0.5-stat-nBA0.5) comme montré dans une étude antérieure. Cette thèse a consisté en une analyse quantitative de la dynamique d'auto-association de copolymères dibloc et tribloc amphiphiles à base d'acrylate de n-butyle et d'acide acrylique dont les blocs hydrophobes contiennent 50% d'unités hydrophiles réparties de manière statistique. Les copolymères à blocs ont été synthétisés par polymérisation radicalaire contrôlée par ATRP. L'influence de la concentration, du pH, de la température et de la force ionique sur la structure et les propriétés mécaniques des systèmes auto-assemblés a été systématiquement étudiée. Par diffusion statique de la lumière nous avons montré la présence d'une concentration d'agrégation critique (CAC) au-dessus de laquelle, des micelles de type étoile (dibloc) ou fleur (tribloc) sont formées par auto-association des blocs hydrophobes. A plus fortes concentrations, des interactions répulsives de type volume exclu apparaissent entre les micelles étoiles. Pour les micelles fleurs, à l'inverse des interactions attractives conduisent au pontage des fleurs jusqu'à l'obtention de réseaux tri-dimensionnels au-dessus de la concentration de percolation. Une attraction trop importante entre les fleurs peut même conduire à une séparation de phase à forte force ionique et bas pH. En diffusion dynamique de la lumière, nous avons montré que la formation des réseaux s'accompagnait de l'apparition d'un mode lent dont l'origine a été expliquée par un mouvement balistique d'hétérogénéités relaxées dans les systèmes. La vitesse de relaxation de ces hétérogénéités s'avèrent être dépendantes des propriétés mécaniques des hydrogels. La formation des réseaux et la dynamique d'échange des chaînes ont été étudiées par rhéologie. La viscosité augmente régulièrement avec la concentration jusqu'à la concentration de percolation où une augmentation brusque de la viscosité se produit et un temps de relaxation apparaît. Le temps de vie des ponts a été finement contrôlé et modulé sur plusieurs décades par modification du pH, de la température et de la force ionique. La formation in-situ des hydrogels nous a permis de mettre en évidence un phénomène de vieillissement des réseaux après leur formation avant d'atteindre un état stationnaire. Ce phénomène s'est traduit par une augmentation du temps de relaxation au cours du temps avant d'atteindre une valeur plateau. Ceci nous a également permis de comprendre pourquoi il était possible de générer des réseaux homogènes, par vieillissement, possédant une dynamique extrêmement lente voir nulle.
532

Funktionalisierte Poly(2-oxazoline) : kontrollierte Synthese, bioinspirierte Strukturbildung und Anwendungen / Functionalized Poly(2-oxazolines) : controlled synthesis, bioinspired structure formation and applications

Greß, Anja January 2008 (has links)
Funktionalisierte Poly(2-oxazoline) als neue Materialien stellen sowohl unter strukturellen Gesichtspunkten als auch im Hinblick auf potentielle Anwendungen eine interessante Polymerklasse dar. Die Ausbildung von hierarchischen Strukturen mit Poly(2-oxazolinen) über intermolekulare Wasserstoffbrückenbindungen ist hierbei ein bisher nicht beachteter Aspekt. Über einen bioinspirierten Ansatz sollten gezielt funktionelle Gruppen, die für einen hierarchischen Aufbau, z.B. in Proteinen, verantwortlich sind, in vereinfachter Weise auf die synthetische Substanzklasse der Poly(2-oxazoline) übertragen werden. Die vorliegende Arbeit beschäftigt sich mit der modularen Synthese neuer, funktionalisierter Poly(2-oxazolin) Homo- und Copolymere. Ausgehend von der Synthese von 2-(3-Butenyl)-2-oxazolin wurden definierte Präpolymere in einer kationischen Isomerisierungspolymerisation unter kontrolliert/„lebenden“ Bedingungen hergestellt. In einer anschließenden „Thio-Click“ (Thiol-En-Reaktion) Modifizierungsreaktion wurden die gewünschten funktionellen Gruppen quantitativ eingeführt. Hydroxylierte Poly(2-oxazoline) wurden hinsichtlich ihres Aggregationsverhaltens in Wasser untersucht. Bereits die jeweiligen Homopolymere bildeten aufgrund von intermolekularen Wasserstoffbrückenbindungen supramolekulare tubuläre Nanofasern aus. Durch Einsatz verschiedener analytischer Methoden konnte die innere Struktur der Nanoröhren beschrieben und ein entsprechendes Modell aufgestellt werden. Die dargestellten funktionellen Poly(2-oxazoline) wurden hinsichtlich ihrer Anwendung als potentielle, synthetische „antifreeze additives“ untersucht. Alle Polymere besitzen eine ausgeprägte Tendenz zur Nukleierung von Wasser und führen daher zu signifikanten Änderungen der Eismorphologie. Des weiteren wurde ein carboxyliertes Derivat zur biomimetischen Mineralisation von Kalziumcarbonat eingesetzt und nach phänomenologischen Gesichtspunkten untersucht. / Functionalized poly(2-oxazoline)s are a promising class of materials concerning their self-assembly behavior as well as for future applications. Hierarchical structure formation based on hydrogen bonding interactions has not been investigated yet. Applying a bioinspired approach, functional groups promoting hierarchical structure formation are introduced to poly(2-oxazoline)s. This work is focused on the modular synthesis of new functionalized poly(2-oxazoline) homo and copolymers. Starting from the synthesis of the new monomer 2-(3-butenyl)-2-oxazolin, well-defined precursor materials were prepared via cationic isomerization polymerization. Next, the polymers were quantitatively modified with the aimed functional groups using a “thio-click” (thiol-ene) reaction. The aggregation behaviour of hydroxylated poly(2-oxazolines) in water was investigated. Homo- as well as block copolymers can form supramolecular hollow nanofibers via intermolecular hydrogen bonding. Using a variety of different analytical methods, the structure of the nanotubes was determined and a formation model was proposed. Furthermore, the functionalized poly(2-oxazoline)s were investigated as synthetic mimics of natural anti-freeze additives. It was found, that these polymers show the tendency to nucleate water, thus influencing the morphology of ice. Finally, a carboxylated derivative was applied as an additive for the mineralization of calcium carbonate.
533

Towards greener stationary phases : thermoresponsive and carbonaceous chromatographic supports

Tan, Irene January 2011 (has links)
Polymers which are sensitive towards external physical, chemical and electrical stimuli are termed as ‘intelligent materials’ and are widely used in medical and engineering applications. Presently, polymers which can undergo a physical change when heat is applied at a certain temperature (cloud point) in water are well-studied for this property in areas of separation chemistry, gene and drug delivery and as surface modifiers. One example of such a polymer is the poly (N-isopropylacrylamide) PNIPAAM, where it is dissolved well in water below 32 oC, while by increasing the temperature further leads to its precipitation. In this work, an alternative polymer poly (2-(2-methoxy ethoxy)ethyl methacrylate-co- oligo(ethylene glycol) methacrylate) (P(MEO2MA-co-OEGMA)) is studied due to its biocompatibility and the ability to vary its cloud points in water. When a layer of temperature responsive polymer was attached to a single continuous porous piece of silica-based material known as a monolith, the thermoresponsive characteristic was transferred to the column surfaces. The hybrid material was demonstrated to act as a simple temperature ‘switch’ in the separation of a mixture of five steroids under water. Different analytes were observed to be separated under varying column temperatures. Furthermore, more complex biochemical compounds such as proteins were also tested for separation. The importance of this work is attributed to separation processes utilizing environmentally friendly conditions, since harsh chemical environments conventionally used to resolve biocompounds could cause their biological activities to be rendered inactive. / Polymere, welche empfindlich gegenüber externen physikalischen, chemischen und elektrischen Einflüssen sind, werden „intelligente Materialien“ genannt. Diese werden weitverbreitet in medizinischen und technischen Anwendungen eingesetzt. Auf diesem Gebiet ausführlich erforschte Materialien sind Polymere, welche durch Hitze bei einer bestimmten Temperatur (Trübungspunkt) eine physikalische Veränderung eingehen können, genannt thermoresponsive Polymere. Eingesetzt werden diese z.B. in chromatographischen Trennverfahren, in Gen- und Wirkstofftransport Vorgängen und zur Oberflächenmodifikation. Ein Beispiel für so ein Polymer ist das poly(N-isopropylacrylamide) PNIPAAM, welches unter 32 °C in Wasser gelöst vorliegt und mit Erhöhung der Temperatur als Niederschlag ausfällt. In dieser Arbeit wurde ein alternatives Polymer, das poly(2-(2-methoxyethoxy)ethylmethacrylate-co-oligo(ethyleneglycol) methacrylate) (P(MEO2MA-co-OEGMA)), untersucht, in Bezug auf Biokompatibilität und der Änderung des Trübungspunktes in Wasser. Wenn eine Schicht eines temperaturempfindlichen Polymers auf einen Monolithen (einteiliger, poröser und auf Silika-basierendes Material) aufgebracht wird, werden die thermoresponsiven Eigenschaften auf die Oberfläche dieses Monolithen übertragen. Der Monolith dient hier als Säule in einer HPLC-Anlage. Es wurde gezeigt, dass das Hybrid-Material als einfacher „Temperaturschalter“ in der Trennung von fünf verschiedenen Steroiden in Wasser agieren kann. Untersucht wurde die Separation verschiedener Analyten mit dem Variieren der Säulentemperatur. Zusätzlich wurden mehr komplexe biochemische Stoffe, wie Proteine, getestet. Die Bedeutung dieser Arbeit ist zurückzuführen auf Separationsprozesse, welche umweltfreundlichen Bedingungen nutzen, da die rauen chemischen Bedingungen in konventionellen Separationsprozessen die biologische Inaktivität der Verbindungen zur Folge haben können. Der zweite Teil der Arbeit beschäftigte sich mit der Entwicklung eines alternativen Trägermaterials als Ersatz zu den Silika-basierende Trennungssäulen. Kohlenstoffmaterialien sind aufgrund ihrer ausgezeichneten mechanischen Härte und chemischen Stabilität eine vielversprechend Alternative. Die Synthese von Kohlenstoffkugeln als Trägermaterial kann als „grüner“ Prozess in meiner Arbeit angesehen werden, da milde Synthesebedingungen in purem Wasser verwendet wurden. Die Leistungsfähigkeit des Materials wurde mit einer Serie von Separationsreaktionen gezeigt.
534

Frequency and Voltage-Modulated electrochemical Aflatoxin B1 immunosensor systems prepared on electroactive organic polymer platforms.

Owino, Joseph Hasael Odero. January 2008 (has links)
<p>In the presented work, immunosensors for detection of Aflatoxin B1 based on different immobilization platforms were studied. Synthesis of an electroactive hydrogel was also carried out. Aflatoxins are a group of mycotoxins that have deleterious effects on humans and are produced during fungal infection of plants or plant products. Electrochemical immunosensor for the determination of Aflatoxin B1 (AFB1) was developed with anti-aflatoxin B1 antibody immobilized on Pt electrodes modified with polyaniline (PANi) and polystyrene sulphonic acid (PSSA). Impedimetric analysis shows that the electron transfer resistances of Pt/PANi-PSSA electrode, Pt/PANi-PSSA/AFB1-Ab immunosensor and Pt/PANi-PSSA/AFB1-Ab incubated in BSA were 0.458, 720 and 1066 k&Omega / , respectively. These results indicate that electrochemical impedance spectroscopy (EIS) is a suitable method for monitoring the change in electron-transfer resistance associated with the immobilization of the antibody. Modelling of EIS data gave equivalent circuits which showed that the electron transfer resistance increased from 0.458 k&Omega / for Pt/PANi-PSSA electrode to 1066 k&Omega / for Pt/PANi-PSSA/AFB1-Ab immunosensor, indicating that immobilization of the antibody and incubation in BSA introduced an electron transfer barrier. The AFB1 immunosensor had a detection limit of 0.1 mg/L and a sensitivity of 869.6 k &Omega / L/mg.</p>
535

Polymeric tyrosinase nanobiosensor system for the determination of endocrine disrupting bisphenol A

Matyholo, Virginia Busiswa January 2011 (has links)
The main objective of this work was to develop simple and sensitive electrochemical sensors for the detection of bisphenol A. To investigate the electrochemical behavior of BPA on a bare glassy carbon electrode. To apply the developed biosensor for the determination BPA by differential pulse voltammetry, electrochemical impedance spectrometry, square wave voltammetry and steady-state amperometry. To characterize the synthesized PDMA-PSS by cyclic voltammetry (CV), UV-Vis spectroscopy, transmission electron microscopy (TEM), scanning electron microscopy (SEM).
536

Functional Significance of Multiple Poly(A) Polymerases (PAPs)

Nordvarg, Helena January 2002 (has links)
3’ end cleavage and polyadenylation are important steps in the maturation of eukaryotic mRNAs. Poly(A) polymerase (PAP), the enzyme catalysing the addition of adenosine residues, exists in multiple isoforms. In this study the functional significance of multiple poly(A) polymerases have been investigated. It is concluded (i) that at least three mechanisms generate the multiple isoforms i.e. gene duplication, post-translational modification and alternative mRNA processing and (ii) that the different isoforms of poly(A) polymerases have different catalytic properties. The study highlights regulation of poly(A) polymerase activity through modulation of its affinity for the substrate as visualised by the KM parameter. We suggest that trans-acting factors modulating the KM of poly(A) polymerase will play important roles in regulating its activity. A new human poly(A) polymerase (PAPγ) encoded by the PAPOLG gene was identified. PAPγ is 65% homologous to the previously identified PAP. In human cells three isoforms of poly(A) polymerases being 90, 100 and 106 kDa in sizes are present. These native isoforms were purified. The PAPOLA gene encoded the 100 and 106 kDa isoforms while the 90 kDa isoform was encoded by the PAPOLG gene. Native PAPγ was found to be more active than 100 kDa PAP while the hyperphosphorylated 106 kDa PAP isoform was comparably inactive due to a 500-fold decrease in affinity for the RNA substrate. The PAPOLG gene was shown to encode one unique mRNA while the PAPOLA gene generated five different PAP mRNAs by alternative splicing of the last three exons. The PAPOLA encoded mRNAs were divided into two classes based on the composition of the last three exons. Poly(A) polymerases from the two classes were shown to differ in polyadenylation activities. These differences revealed two novel regulatory motifs in the extreme C-terminal end of PAP, one being inactivating and the other activating for polyadenylation activity.
537

Studies On Preparation Of Poly(Vinyl Pyrrolidone) And Poly (Methacrylic Acid) Microcaopsules For Drug Delivery

Kumar, K N Anil 01 1900 (has links)
There has been growing interest in designing and development of suitable micro or nano drug delivery system with the ability to target site specifically and release the payload in a predetermined fashion. Recently a new type of system called polyelectrolyte microcapsules and thin films have been proposed and developed for applications such as, biomedical devices to micro sensing and drug delivery. Owing to its advantages of mild preparation conditions, multifunctionality, with programmable characteristics and to encapsulate large amount of materials, it has shown immense potential. In the present research, multilayer polyelectrolyte thin films composed of Poly(methacrylic acid) (PMA) and Poly (vinyl pyrrolidone) (PVP) were deposited on the flat substrates using layer by layer (LBL) technique. The film growth and its deconstruction under physiological conditions were characterized using UV Visible spectrophotometer and Scanning Electron Microscopy (SEM). Hollow microcapsules composed of PMA and PVP were also produced with the help of sacrificial silica template using the same LBL adsorption technique. After coating the desired number of PVP and PMA layers, the colloidal template was removed with a buffer system composed of Hydrofluoric acid (HF) and Ammonium fluoride (NH4F). The obtained capsules were characterized for its surface morphology using SEM and Atomic Force Microscopy (AFM). The hydrogen bonding in capsule formation was confirmed by Fourier Transform Infrared Spectroscopy (FTIR). Encapsulation and release with the microcapsules was carried out using Rifampicin (Antitubercular drug) as a model drug. The interaction of empty and drug loaded capsules with Mycobacterium Smegmatis cell line was investigated. It was found that the empty capsules did not affect the cell growth indicating their biocompatibility. Confocal microscopy studies with Doxorubicin (anticancer drug), which is a naturally fluorescent molecule, showed the drug is indeed encapsulated inside the hollow capsule. From the above studies, it was concluded that polyelectrolyte capsules have the potential to be used for delivering drugs.
538

Synthesis and electrochemistry of novel conducting dendrimeric star copolymers on poly(propylene imine) dendrimer

Baleg, Abd Almonam Abd Alsalam January 2011 (has links)
<p>One of the most powerful aspects of conducting polymers is their ability to be nanostructured through innovative, synthetically manipulated, transformations, such as to tailor-make the polymers for specialized applications. In the exponentially increasing wide field of nanotechnology, some special attention is being paid to innovative hybrid dendrimer-core based polymeric smart materials. Star copolymers are a class of branched macromolecules having a central core with multiple linear polymer chains extending from the core. This intrinsic structural feature yields a unique 3D structure with extended conjugated linear polymer chains, resulting in star copolymers, which have higher ionic conductivities than their corresponding non-star conducting polymer counterparts. In this study an in-depth investigation was carried out into the preparation and characterization of specialized electronic &lsquo / smart materials&rsquo / . In particular, the preparation and characterization of novel conducting dendrimeric star copolymers which have a central poly(propylene imine) (PPI) dendrimer core with conducting polypyrrole (PPy) chains extending from the core was carried out. This involved, first, the preparation of a series of dendrimeric polypyrrole poly(propylene imine) star copolymers (PPI-co-PPy), using generations 1 to 4 (G1 to G4) PPI dendrimer precursors. The experimental approach involved the use of both chemical and electrochemical synthesis methods. The basic procedure involved a condensation reaction between the primary amine of a diamino functional PPI dendrimer surface and 2-pyrrole aldehyde, to afford the pyrrole functionalized PPI dendrimer (PPI-2Py). Polymerization of the intrinsically contained monomeric Py units situated within the dendrimer backbone was achieved via two distinctly different routes: the first involved chemical polymerization and the second was based on potentiodynamic oxidative electrochemical polymerization. The star copolymers were then characterized using various sophisticated analytical techniques, in-situ and ex-situ. Proton nuclear magnetic resonance spectroscopy (1HNMR) and Fourier transform infrared spectroscopy (FTIR) were used to determine the structures. Scanning electron microscopy (SEM) was used to determine the morphology. Themogravimetric analysis (TGA) was used to study the thermal stability of the prepared materials. X-ray diffraction analysis (XRD) was used to study the structural make-up of phases, crystallinity and amorphous content. Hall effect measurements were carried out to determine the electrical conductivity of the chemically prepared star copolymers. The PPI-co-PPy exhibited improved thermal stability compared to PPI-2Py, as confirmed by TGA. SEM results showed that the surface morphology of the functionalized dendrimer and star copolymer differed. The surface morphology of the chemically prepared star copolymers resembled that of a flaky, waxy material, compared to the ordered morphology of the electrochemically grown star copolymers, which resembled that of whelk-like helixes. In the case the electrochemically grown star copolymers, SEM images recorded at higher magnifications showed that the whelk-like helixes of the star copolymers were hollow tubes with openings at their tapered ends, and had an average base diameter of 2.0 &mu / m. X-ray diffraction analysis of the first generation star copolymer G1PPI-co-PPy revealed a broadly amorphous structure associated with PPy, and crystalline peaks for PPI. Cyclic voltammetry (CV), square wave voltammetry (SWV) and electrochemical impedance spectroscopy (EIS) techniques were used to study and model the electrochemical reactivity of the star copolymer materials. Electrochemical impedance spectroscopy data showed that the G1PPI-co-PPy exhibited slightly higher ionic conductivity than pristine PPy in lithium perchlorate. The second generation star copolymer G2PPI-co-PPy electrochemically deposited on a platinum (Pt) electrode had a lower electrochemical charge transfer resistance compared to electrodeposited polypyrrole (PPy) on a Pt electrode, and bare Pt. The decrease in charge transfer resistance was attributed to an increase in the conjugation length of the polymer as a result of the linking of the highly conjugated PPy to the PPI dendrimer. Bode impedimetric analysis indicated that G2PPI-co-PPI was a semiconductor, with a maximum phase angle shift of 45.3&deg / at 100 MHz. The star copolymer exhibited a 2- electron electrochemistry and a surface coverage of 99%. Results of Hall effect measurements showed that the star copolymer is a semiconducting material, having a conductivity of 0.7 S cm-1, in comparison to the 1.5 S cm-1 of PPy. To the best of my knowledge, these new star copolymers have not been reported in the open literature. Their properties make them potentially applicable for use in biosensors.</p>
539

Investigations On The Properties And Drug Releases Of Biodegradable Polymer Coatings On Metal Substrates As Drug Carriers

Baydemir, Tuncay 01 September 2009 (has links) (PDF)
The use of various biodegradable polymers for the improvement of different controlled and long-lasting drug release systems is an active research area in recent years. The application of different metal prostheses, especially titanium based ones, to the human body is also very common. A most important disadvantage of these prostheses is the risk of infection at the application areas that necessitates the removing of the prosthesis with a second surgical operation and reapplication of it after recovery. One of the best ways to solve this problem is to render metal prostheses infection free with controlled and sustainable drug (antibiotic) release systems. The long term sustained release of relevant antibiotics from the various biodegradable polymer coated metal implants is studied in this thesis. Virtual fatigue analysis and drug loading capacities of titanium and stainless steel samples with different surface pattern and modifications were studied. Various biodegradable polymer and drug combinations were examined and used for coating of metal prosthesis. The aim is to design polymer-drug coated metal implants that are capable of releasing a feasible amount of drug up to a period of at least 1 month. Various coating techniques and surface modifications were also employed to improve the adhesional properties of the drug containing polymers. Their adhesion abilities on the metal substrates were tested by Lap-shear and T-peel tests. Polymer degradation kinetics was followed by viscosity studies. Calibration lines for different drugs were obtained and drug releases on different systems were followed by using UV spectroscopy and microbial antibiotic sensitivity tests. Among the techniques applied to prevent fast release of drugs initially, the coatings of Vancomycin absorbed &amp / #946 / -TCP (&amp / #946 / -tricalcium phosphate) homogeneously distributed in poly(D,L-lactide-co-glycolide) solution in chloroform followed by an inert coating with poly(L-lactide) system proved to be feasible. By this technique, initial burst release was minimized and drug release from implants lasted nearly 2 months. Multiple coatings on polymer plus drug coating layer also gave promising results. In vivo studies on dorsal muscles of native rabbits with antibiotic loaded implants gave no negative effect on the surrounding tissues with high compatibility free of infection.
540

Investigation Of Thermal Characteristics Of A Series Polyoxazolines By Direct Pyrolysis Mass Spectrometry

Atilkan, Nurcan 01 February 2011 (has links) (PDF)
In the latest years, many studies especially on characterization and synthesis of polyoxazolines have been made. During these studies, new polyoxazolines such as poly(2-isopropyl-2-oxazoline) (PIPOX), poly(2-(3-butenyl)-2-oxazoline) (PBOX) and modified PBOX were synthesized. However, there has been no investigation on their thermal characteristics such as thermal stability and thermal degradation products. In this study, thermal degradation characteristics, thermal degradation products and thermal stability of PIPOX, PBOX and modified PBOX polymers PBOX-Perf, PBOX-Thiop, PBOX-Sug, PBOX-SP and PBOX-TP were investigated. In this study mercaptans 1H,1H,2H,2H-perfluoro-octanethiol, 3-mercapto-1,2 propanediol, thio-&beta / -D-glucose derivative and their mixture were used in PBOX modifications. The effect of modification of PBOX with different mercaptans on thermal characteristics was also analyzed. For the PIPOX, formations of protonated monomer and oligomers from dimer to heptamer were observed. However, when the isopropyl group changes with 3-butenyl group, protonated oligomers up to trimer were observed because the crosslinking formed during the polymerization of unsaturated butenyl inhibited the production of oligomers. In addition to this, thermal degradation at lower temperatures was observed. The change in thermal stability and thermal degradation products were observed as a result of modification of PBOX with different mercaptans. Unlike PBOX-Sug thermal degradation started at very low temperatures for PBOX-Thiop and PBOX-Perf. This degradation observed at lower temperatures disappeared for PBOX-SP and PBOX-TP. For PBOX-Perf, PBOX-Sug and PBOX- Thiop, decomposition of side chains at low temperatures and decomposition of the main chain at high temperatures were observed. Although the same thermal degradation behavior for PBOX-TP and PBOX-Thiop was expected, since PBOX-TP was obtained as a result of modification of PBOX with high amounts of mercaptan used in PBOX-Thiop and small amounts of mercaptan used in the PBOX-Perf, the results show that neither PBOX-Thiop nor PBOX-Perf thermal degradation behavior are dominant. This is also valid for PBOX-SP. PBOX-SP has higher thermal stability when compared to PBOX-Sug.

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