Blends of High Molecular Weight Poly(lactic acid) (PLA) with Copolymers of 2-bromo-3-hydroxypropionic Acid And Lactic Acid (PLB)

Lei, Xia

07 June 2013

No description available.

Polymers

Miscibility

Poly(lactic acid)

Synthesis of Amphiphilic Block Copolymers for Use in Biomedical Applications

Carmichael-Baranauskas, Anita Yvonne

16 June 2010

The research presented in this thesis focuses on the synthesis of three amphiphilic block copolymer systems containing poly(ethylene oxide) (PEO) blocks. The polymer systems were developed for use in biomedical applications. The first of these is a series of poly(ethylene oxide-b-oxazoline) (PEO-b-POX) diblock copolymers for use in the progress towards novel non-viral gene transfer vectors. Poly(ethylene oxide-b-2-ethyl-2-oxazoline) (PEO-b-PEOX) and poly(ethylene oxide-b-2-methyl-2-oxazoline) (PEO-b-PMOX) were investigated. The PEOX block was hydrolyzed with acid to form linear polyethylenimine (L-PEI). The polycation L-PEI is well known for its DNA binding efficiency but the water solubility of the resulting DNA/polymer complex is limited. Addition of a PEO block is directed towards the formation of a water dispersible DNA/copolymer complex. Dynamic light scattering of the PEO-b-PEOX and PEO-b-PEI block copolymers indicated that both systems existed as single chains in aqueous solution at pH 7. PEO copolymers also play a significant role in the formation of magnetic magnetite nanoparticles, which are dispersible in water at biological pH (pH =7). There is significant interest in the design of magnetic nanoparticle fluids for biomedical applications including magnetic field-directed drug delivery, magnetic cell separations, and blood purification. For use in vivo, the magnetite nanoparticles must be coated with biocompatible materials. Such polymers render the nanoparticles dispersible in water. Harris1 et al. synthesized PEO based, polyurethane triblocks with pendant carboxylic acid groups for use in formation of stable aqueous magnetic fluids. Building from this work, two polyurethane and polyurethaneurea systems were synthesized with 1300 g/mol PEOX and 2500 g/mol and PEOX2070 g/mol poly(ethylene oxide-co-propylene oxide) tailblocks, respectively. The PEO/PPO random copolymer contained about 25 weight percent PPO, and this disrupted the capacity of the PEO to crystallize. The PEOX based urethane triblocks were synthesized through reacting the tailblocks with the monomers for the center block whereas the PEO/PPO based polyurethaneurea was synthesized through forming the central urethane block with pendant acid groups first and then terminating the copolymer with the monofunctional copolymer. Terminal amine groups on the PEO/PPO tailblock afforded a triblock linked with two urea groups. The new polyurethanes with the PEOX tailblocks and the new polyurethaneurea with the PEO/PPO tailblocks could be utilized to efficiently stabilize magnetite nanoparticles in water. / Master of Science

Poly(2-ethyl-2-oxazoline)

Magnetite

Nanoparticles

Polyethylenimine

Poly(ethylene oxide)

Sensitive Polymeroberflächen zur Steuerung der Adsorption von Biomolekülen / Sensitive polymer surfaces to control the adsorption of biomolecules

Burkert, Sina

13 January 2010

Diese Arbeit liefert die Grundlage für intelligente Beschichtungen aus kovalent gebundenen Polymeren, sogenannten Polymerbürsten, mit Schichtdicken von wenigen Nanometern. Durch ihre Fähigkeit die Oberflächeneigenschaften je nach Umgebungstemperatur, pH Wert und Zusammensetzung zu ändern, kann die Adsorption von Biomolekülen auf eine einzigartige Art und Weise kontrolliert und reguliert werden. Die zusätzliche Modifizierung der Polymerbürsten mit Elektronenstrahlen ermöglicht die Generierung von Gradienten und erweitert die Anwendungsmöglichkeiten in vielfältigen Bereichen der interdisziplinären Forschung, wie z.B. in Hinblick auf das Lab-on-Chip Design oder die Biomedizin. / Polymer brushes represent sensitive coatings with thicknesses of few nanometres and are interesting for interdisciplinary scientific research, e.g. for intelligent lab-on-chip design or biotechnology. It is demonstrated in this work, that polymer brushes are able to change their surface properties depending on the ambient conditions like solvent quality, temperature or pH value. This sensitivity highly influenced the adsorption of bio molecules. Especially mixed polymer brushes enabled the tuning of the adsorbed amount of various proteins and cells. To create surface gradients or structures in the different polymer brush surfaces, controlled electron beam modification was applied.

Poly-N-isopropylacrylamid

Polystyrol

Poly-2-vinylpyridin

Polymerbürsten

Elektronenstrahlen

Oberflächenmodifizierung

schaltbar

grafting to

Poly-N-isopropylacrylamide Polystyrol

Poly-2-vinylpyridine

polymer brushes

electron irradiation

surface modification

sensitive surfaces

grafting to

ddc:540

rvk:VK 8007

Synthèse et étude physico-chimique de copolymères amphiphiles à base de poly(2-méthyl-2-oxazoline) / Synthesis and physical chemistry study of amphiphilic copolymers based on poly(2-methyl-2-oxazoline)

Guillerm, Brieuc

16 December 2011

Ce travail de thèse décrit l'élaboration de copolymères amphiphiles obtenus par couplage de deux homopolymères. La synthèse des copolymères s'est effectuée en deux étapes. Dans un premier temps, des homopolymères de type poly(2-méthyl-2-oxazoline) (P(MOx)) et poly(acrylate de tert-butyle) (P(At-Bu)) ont été préparés par polymérisation par ouverture de cycle cationique (CROP) et par polymérisation radicalaire contrôlée de type RAFT ou ATRP, respectivement. Puis les copolymères amphiphiles diblocs ont finalement été obtenus par une réaction de couplage polymère-polymère de type cycloaddition de Huisgen. Une étude physico-chimique de ces copolymères dans l'eau a mis en évidence la présence d'agrégats qui présentent une morphologie sphérique, des tailles inférieures à 100 nm et des concentrations d'agrégation critique de l'ordre de 10-6 mol.L-1.Les connaissances acquises sur la synthèse et l'étude des copolymères à blocs amphiphiles ont également permis le développement de copolymères greffés amphiphiles poly(-caprolactone)-g-poly(2-méthyl-2-oxazoline) (PCL-g-P(MOx)), constitués d'un bloc hydrophobe PCL sur lequel des chaînes hydrophiles P(MOx) ont été greffées. L'étude du comportement de ces copolymères dans l'eau montre la formation d'agrégats avec des caractéristiques proches de celles obtenues pour les copolymères diblocs amphiphiles. Un autre point intéressant est que la P(MOx) permet de solubiliser la PCL dans l'eau.Ces deux études illustrent l'apport de la chimie macromoléculaire pour la préparation de structures amphiphiles parfaitement définies qui s'organisent en phase aqueuse en agrégats. Ces derniers pourraient notamment être utilisés dans le domaine biomédical. / This manuscript deals with the synthesis of amphiphilic diblock copolymers obtained by the coupling of both hydrophobic and hydrophilic homopolymers. The copolymers were achieved in two steps. On the one hand, homopolymers poly(2-methyl-2-oxazoline) P(MOx)s and poly(tert-butyl acrylate)s (P(At-Bu) were synthesized by cationic ring opening polymerization (CROP) and by Reversible Addition-Fragmentation Transfer (RAFT) polymerization and atom transfer radical polymerization (ATRP), respectively. Finally, amphiphilic diblock copolymers were achieved by Huisgen's cycloaddition. Physical chemistry studies in water proved the formation of aggregates. The latter had a spherical morphology, sizes below 100 nm and critical aggregation concentration around 10-6 mol.L-1.Knowledge acquired on the synthesis and the study of amphiphilic block copolymers led to the development of poly(-caprolactone)-g-poly(2-methyl-2-oxazoline) (PCL-g-P(MOx)) amphiphilic graft copolymers, made of a hydrophobic PCL grafted with hydrophilic P(MOx) moieties. The study of aqueous solution of such copolymers showed the formation of aggregates with characteristics close from those obtained for the diblock copolymers. Another interesting point is that P(MOx) permitted the solubilization of PCL in water.The reported work illustrated the importance of macromolecular chemistry for the obtaining of amphiphilic copolymers with controlled molecular weight and narrow molar mass distributions which self-assemble in water. Such kind of materials could be used in the biomedical field.

Copolymères amphiphiles

Poly(2-méthyl-2-oxazoline)

Couplage polymère-polymère

Chimie « click »

Poly(acrylate de t-butyle))

Poly(e-caprolactone)

Amphiphilic copolymers

Poly(2-methyl-2-oxazoline)

Polymer-polymer coupling

Click chemistry

Poly(t-butyl acrylate)

Poly(e-caprolactone)

Entwicklung von neuartigen thermoresponsiven Oberflächenbeschichtungen auf der Basis von Poly-2-oxazolinen

Adam, Stefan

09 May 2016

Im Rahmen dieser Arbeit wurden für die Herstellung neuartiger funktioneller Oberflächenbeschichtungen Polymerbürstensysteme basierend auf linearen, thermoresponsiven Poly-2-oxazolinen (POX) entwickelt und ausführlich charakterisiert. Als Grundbaustein für die Herstellung von POX-Bürsten wurden drei endfunktionalisierte thermoresponsive POX mittels kationisch ringöffnender Polymerisation synthetisiert, wobei jeweils 2-Cyclopropyl-2-oxazolin (cPrOX) als thermoresponsive Wiederholungseinheit und 2-Methyl-2-oxazolin (MeOX) als hydrophiles Comonomer zu verschiedenen Anteilen verwendet wurden. Mittels VIS-spektroskopischen Trübungsmessungen wurde für alle POX in Wasser ein LCST-Entmischungsverhalten mit einem reversiblen und scharfen Phasenübergang nachgewiesen, wobei die Trübungstemperaturen stark von der Polymerhydrophilie sowie der Molmasse und der Polymerkonzentration in Lösung abhingen. Die Herstellung der POX-Polymerbürsten auf der Basis der synthetisierten POX erfolgte über einen „grafting to“-Ansatz, bei welchem die Polymere in einem thermisch initiierten Prozess über ein funktionalisiertes Kettenende kovalent an ein Substrat angebunden wurden. Als Hauptmethode zur Charakterisierung der physikochemischen Eigenschaften der hergestellten Schichten, insbesondere deren temperaturabhängiges Schaltverhalten in Wasser, wurde spektroskopische Ellipsometrie verwendet. Zusätzlich kamen Rasterkraftmikroskopie, Kontaktwinkel und Quarzkristallmikrowaage mit Dissipationsaufzeichnung zum Einsatz. Im Gegensatz zum sehr scharfen, diskontinuierlichen Phasenübergang der POX in Lösung konnte für alle POX-Bürsten ein kontinuierlicher Übergang von einem gestreckten Bürstenzustand bei niedrigen Temperaturen in einen kollabierten Zustand bei hohen Temperaturen bestimmt werden, wobei das Quellvermögen und die temperaturabhängigen Quellkurvenverläufe durch die Polymereigenschaften und die Bürstenparameter beeinflussbar waren. Durch die Kombination eines POX mit Polyacrylsäure (PAA) als zweite Komponente konnten zudem neuartige binäre Polymerbürstensysteme hergestellt werden, welche ein komplexes pH- und temperaturabhängiges Schaltverhalten sowie ein steuerbares Proteinadsorptionsvermögen in Abhängigkeit von der Bürstenpräparationsmethodik, der POX-PAA-Zusammensetzung sowie der Temperatur und dem pH-Wert der umgebenden Pufferlösung aufwiesen. Zur ausführlichen Charakterisierung der Schichteigenschaften wurde neben den bereits benannten Methoden der spektroskopischen Ellipsometrie, Rasterkraftmikroskopie und der Kontaktwinkelmessung auch Röntgenphotoelektronenspektroskopie genutzt. Abschließende Zelladhäsionsexperimente mit humanen mesenchymalen Stammzellen auf den bürstenmodifizierte Oberflächen unter physiologischen Bedingungen offenbarten deutliche Unterschiede in der Affinität der Zellen zur Adhäsion auf POX-Homopolymerbürsten in Abhängigkeit der Bürstenhydrophilie. Darüber hinaus konnte die Zelladhäsion auch auf POX-PAA-Mischbürstensystemen gesteuert werden.

info:eu-repo/classification/ddc/530

ddc:530

Sensitive Polymeroberflächen zur Steuerung der Adsorption von Biomolekülen

Burkert, Sina

18 December 2009

Diese Arbeit liefert die Grundlage für intelligente Beschichtungen aus kovalent gebundenen Polymeren, sogenannten Polymerbürsten, mit Schichtdicken von wenigen Nanometern. Durch ihre Fähigkeit die Oberflächeneigenschaften je nach Umgebungstemperatur, pH Wert und Zusammensetzung zu ändern, kann die Adsorption von Biomolekülen auf eine einzigartige Art und Weise kontrolliert und reguliert werden. Die zusätzliche Modifizierung der Polymerbürsten mit Elektronenstrahlen ermöglicht die Generierung von Gradienten und erweitert die Anwendungsmöglichkeiten in vielfältigen Bereichen der interdisziplinären Forschung, wie z.B. in Hinblick auf das Lab-on-Chip Design oder die Biomedizin. / Polymer brushes represent sensitive coatings with thicknesses of few nanometres and are interesting for interdisciplinary scientific research, e.g. for intelligent lab-on-chip design or biotechnology. It is demonstrated in this work, that polymer brushes are able to change their surface properties depending on the ambient conditions like solvent quality, temperature or pH value. This sensitivity highly influenced the adsorption of bio molecules. Especially mixed polymer brushes enabled the tuning of the adsorbed amount of various proteins and cells. To create surface gradients or structures in the different polymer brush surfaces, controlled electron beam modification was applied.

info:eu-repo/classification/ddc/540

ddc:540

Microcalorimetric study of the temperature-induced phase separation in aqueous solutions of thermosensitive polymers

Diab, Charbel

January 2004

Mémoire numérisé par la Direction des bibliothèques de l'Université de Montréal.

Solubilité

Interactions moléculaires

Point de trouble

Température de transition

Volume d'hydratation

Calorimétrie

Poly (N-vinylisobutyramide)

Poly (2-isopropyl-2-oxazolines)

Stimuli-responsive Novel Amphiphilic Polymers for Chemical and Biomedical Applications

Tam, K. C., Ravi, P., Dai, S., Tan, C. H.

01 1900

Amphiphilic polymers are a class of polymers that self-assemble into different types of microstructure, depending on the solvent environment and external stimuli. Self assembly structures can exist in many different forms, such as spherical micelles, rod-like micelles, bi-layers, vesicles, bi-continuous structure etc. Most biological systems are basically comprised of many of these organised structures arranged in an intelligent manner, which impart functions and life to the system. We have adopted the atom transfer radical polymerization (ATRP) technique to synthesize various types of block copolymer systems that self-assemble into different microstructure when subject to an external stimuli, such as pH or temperature. The systems that we have studied are: (1) pH responsive fullerene (C60) containing poly(methacrylic acid) (PMAA-b-C60); (2) pH and temperature responsive fullerene containing poly[2-(dimethylamino)ethyl methacrylate] (C₆₀-b-PDMAEMA); (3) other responsive water-soluble fullerene systems. By varying temperature, pH and salt concentration, different types microstructure can be produced. In the presence of inorganic salts, fractal patterns at nano- to microscopic dimension were observed for negatively charged PMAA-b-C60, while such structure was not observed for positively charged PDMAEMA-b-C60. We demonstrated that negatively charged fullerene containing polymeric systems can serve as excellent nano-templates for the controlled growth of inorganic crystals at the nano- to micrometer length scale and the possible mechanism was proposed. The physical properties and the characteristics of their self-assembly properties will be discussed, and their implications to chemical and biomedical applications will be highlighted. / Singapore-MIT Alliance (SMA)

Amphiphilic polymers

self-assembly

microstructures

atom transfer radical polymerization

ATRP

fullerene

poly(methacrilic acid)

Covalent Immobilization Of Glucose Isomerase On Poly(2-hydoxyethyl Methacrylate) Particles

Yildiz, Umit Hakan

01 July 2004

ABSTRACT Covalent Immobilization of Glucose Isomerase on Poly (2-hydroxyethyl methacrylate) Particles Yildiz, Hakan &Uuml / mit M.S., Department of Chemistry Supervisor: Prof. Dr. Nesrin Hasirci July 2004, 54 pages In this study, poly (2-hydroxyethyl methacrylate), P(HEMA), particles were prepared by suspension polymerization of the monomer 2-hydroxyethyl methacrylate with addition of ethylene glycol dimethyacrylate, EGDMA, as cross linker. Glucose isomerase, GI, enzyme was covalently immobilized on the prepared P(HEMA) particles after activation of the particles with cyanuric chloride. The activities of the free and immobilized enzymes were measured with Ethanol-Carbazole method. The immobilization of GI on P(HEMA) particles promoted enzyme stability and as a result, the enzyme became more stable to temperature, storage, and reuse. For maximum substrate conversion, optimum temperature was determined as 70 oC for free GI and this value shifted to 60 oC for immobilized enzyme. Optimum pH for maximum substrate conversion was found to be 7.0 for free GI and 8.0 for immobilized GI. The change of enzyme activity with substrate concentration were determined to calculate Km and Vmax values of the free and immobilized enzymes. Km values were found to be 1.7x10-2 mol/L and 3.1x10-1 mol/L while Vmax values were 1.01x10-4 mol/L.min, 1.65x10-3 mol/L.min for free and immobilized GI, respectively. Reuse capability of immobilized GI on P(HEMA) particles was measured and compared with commercial GI. Both systems retained 80 % of their original activities after 40th use, within 6 days. The change of enzyme activities upon storage were detected at certain time intervals for the samples stored in buffer solution at 4 oC. Immobilized enzyme was retained 60% of its original activitiy in 60 days of storage at 4 oC. Immobilized GI and commercial GI both retained 90% of their activities under continuous flow after 180 mL of substrate solution passed through the column.

QD Polymers, Macromolecules 380-388

Synthesis and Functionalization of Poly(ethylene oxide-b-ethyloxazoline) Diblock Copolymers with Phosphonate Ions

Chen, Alfred Yuen-Wei

29 October 2013

Poly(ethylene oxide) (PEO) and poly(2-ethyl-2-oxazoline) (PEOX) are biocompatible polymers that act as hydrophilic "stealth" drug carriers. As block copolymers, the PEOX group offers a wider variety of functionalization. The goal of this project was to synthesize a poly(ethylene oxide)-b-poly(2-ethyl-2-oxazoline) (PEO-b-PEOX) block copolymer and functionalize pendent groups of PEOX with phosphonic acid. This was achieved through cationic ring opening polymerization (CROP) of 2-ethyl-2-oxazoline monomer onto PEO. These polymerizations used tosylsulfonyl chloride as initiator. Size-exclusion chromatography (SEC) was used to determine the molecular weights of the block copolymers. Two samples of 1:2 and one sample of 1:3 of PEO-to-PEOX block copolymers were made. These samples underwent partial hydrolysis of the PEOX pendent groups to form the random block copolymer, poly(ethylene oxide)-b-poly(2-ethyl-2-oxazoline)-co-poly(ethyleneimine) (PEO-b-PEOX-co-PEI). These reactions showed that there was a degree of control based on the moles of acid. Diethyl vinyl phosphonate was attached to the nitrogen of PEI units via Michael addition where the phosphorylation left <1% of PEI units unattached. The ethyl groups on the phosphonates were further hydrolyzed off phosphonate with HCl acid leaving phosphonic acid. After each step of synthesis, structures and composition were confirmed using ¹H NMR. Due to the nature of the phosphonic acid, the polymer can be utilized in the incorporation and release of cationic drugs. / Master of Science

poly(ethylene oxide)

poly(2-ethyl-2-oxazoline)

ion encapsulation

phosphonate

phosphonic acid

nanoparticles

functionalized random copolymer