Influence of Solvent Removal Rate and Polymer Concentration on Ordering Kinetics of Block Copolymers in Solution

Pape, Alicia Richelle

27 April 2017

An examination of the ordering process of block copolymer microstructure with respect to concentration was performed. Specifically, the process of solution casting block copolymer films was studied using small-angle X-ray scattering (SAXS). A method for determining the volume fraction of ordered phase in solution as the system dried was developed and used to analyze the solution casting process in several different block copolymer films in the neutral solvent toluene; these polymers include poly(styrene-b-butadiene), poly(styrene-b-isoprene-b-styrene), poly(styrene-b-butadiene-b-styrene), and several poly(methyl methacrylate-b-butyl acrylate-b-methyl methacrylate) polymers with different block fractions. A method was also developed for studying different drying rates of these films at a constant temperature. Temperature quenches of poly(styrene-b-isoprene-b-styrene) were performed to evaluate the effect of concentration on ordering rate. In all cases studied, an ordering layer was observed where self-assembly was thermodynamically favorable. This layer steadily grew until it reached the bottom substrate, resulting in a two-step ordering process. In the case of the styrene/diene copolymers, a constant polymer concentration was observed in the ordering layer as it grew to encompass the entire film. Kinetic entrapment was observed in the case of the diblock copolymer, as the system with a medium drying rate with respect to the other two experienced faster kinetics than the other two systems. For the two triblock copolymers, it was found that similar kinetics were observed with respect to the ordering layer concentration, largely due to skinning on the surface allowing time for lower sections of the film to order more completely. In the acrylate copolymers studied, the kinetics were not able to be evaluated with respect to drying rate. This was due to domain compression that cause a disordering of ordered microstructure as solvent was removed. This disordering was attributed to interfacial disruption caused by the compression in the film. In addition, a significant decrease in domain spacing was observed to occur in the vertical direction as a result of compression in that direction and pinning of the film to the substrate in the horizontal direction. Finally, the Avrami kinetic model was fit to several concentration of styrene/isoprene triblock copolymers as they ordered after a temperature quench. A U-shaped curve was observed in the system, as a result of competition between chain mobility effects and thermodynamic effects that occur as polymer concentration increases away from the CODT. It was found that the Avrami exponent remained constant over all concentrations, and an empirical model was fit to find the various rate constants at each polymer concentration. / Ph. D.

Block Copolymer

Microphase Separation

Kinetics

SAXS

Solution Casting

Design of multi-stimuli responsive films through layer-by-layer assembly for the control of protein adsorption / Conception de films sensibles multi-stimuli assemblage couche-par-couche pour le contrôle d'adsorption de protéine

Osypova, Alina

16 October 2015

L'adsorption de protéine sur une surface artificielle solide est un phénomène fondamental qui détermine la réponse biologique d'un organisme vivant entrant dans n'importe quel matériel d'implant. Donc, l'adaptation de surfaces pour l'adsorption de protéine contrôlée est au coeur de beaucoup de champs de recherche d'aujourd'hui incluant la science de matériels et la biotechnologie. Dans ce contexte, les matériels sensibles de stimulus qui peuvent changer leurs propriétés comme une réponse à une petite monnaie dans leur environnement physicochimique attirent un grand intérêt comme ils permettent la création de surfaces avec des propriétés commutables pour le contrôle d'adsorption de protéine. Dans cette thèse, nous faisons un rapport sur la conception et l'élaboration de films minces sensibles de stimulus multi et de nanotubes. À cette fin, nous avons employé la couche-par-couche robuste et polyvalente… / Protein adsorption on a solid artificial surface is a fundamental phenomenon that determines the biological response of a living organism entering any implant material. Therefore, tailoring surfaces for controlled protein adsorption is at the heart of many of today's research fields including biotechnology and materials science. In this context, stimuli-responsive materials that are able to change their properties as a response to a small change in their physico-chemical environment are attracting a great interest as they allow the creation of surfaces with switchable properties for the control of protein adsorption. In this thesis, we report on the design and elaboration of multi stimuli-responsive thin films and nanotubes. For this purpose, we employed the robust and versatile layer-by-layer (LbL) assembly technique to incorporate block copolymers made of poly(acrylic acid) PAA and poly(N-isopropylacrylamide) PNIPAM with tunable and well-controlled block lengths. The combination of ellipsometry, quartz crystal microbalance with dissipation monitoring (QCM-D), surface plasmon resonance (SPR) and infrared data reveal the possibility to build up (PAH/PAA-b-PNIPAM)n multilayers. The stimuli-responsive properties of these LbL films were examined by monitoring the adsorption of proteins by means of QCM-D and fluorescence measurements, while varying (i) temperature, (ii) pH, (iii) ionic strength, or (iv) a combination of the above parameters. It appears that all these stimuli strongly influence the amount of adsorbed proteins. In short, these new PNIPAM block copolymer-based LbL coatings are easy to build on substrates of various nature and geometry (including nanoporous membranes).

Block-Copolymer

L'adsorption de proteine

Thermosensibles

Couche par couche

Auto-Assemblage

L'adsorption à la surface

Protein adsorption

Layer-by-layer

Block-copolymer

541.3

Thermoresponsive Glycopolymers via Controlled Radical Polymerization (RAFT) for Biomolecular Recognition

Özyürek, Zeynep

05 September 2007

Stimuli responsive polymers (SRP) have attracted a lot of attention, due to their potential and promising applications in many fields, as protein-ligand recognition, on-off switches for modulated drug delivery or artificial organs. Poly(N-isopropylacrylamide) (PNIPAM) is one of the most widely studied polymers due to its lower critical solution temperature (LCST) at ~ 32° C in aqueous solution. Additionally, glycopolymers, where free sugar units are present, have potentially interesting applications especially in bio-recognition where sugars play an important role. In this work, our interest was focused on the synthesis of glycomonomers and its block- and random- copolymers with NIPAM. NIPAM homopolymers with an active chain transfer unit at the chain end could be prepared by RAFT. They were used as macro-chain transfer agents to prepare a variety of sugar containing responsive block copolymers from new glycomonomers by the monomer addition concept. The LCSTs of the aqueous solutions of the copolymers are affected strongly by the comonomer content, spacer chain length of the glycomonomer and the chain architecture of the copolymers. These polymers were coated on a solid substrate by spin coating and crosslinked by plasma immobilization. Characterization of the polymers was performed by nuclear magnetic resonance spectroscopy (NMR), ultraviolet (UV), dynamic light scattering (DLS, detection of aggregation behaviour) and gel permeation chromatography (GPC). Polymer films were investigated by ellipsometry, X-ray photoelectron spectroscopy (XPS) and atomic force microscopy (AFM) regarding their surface properties. Afterwards sulfation of sugar – OH groups was performed in order to obtain heparin like structure, as heparin exhibits numerous important biological activities, like good interaction with diverse proteins. Finally, affinity of the polymers (sulfated and non sulfated form) on a solid support to the endothelial cells was investigated.

info:eu-repo/classification/ddc/540

ddc:540

Phase Morphology and Orientation Development of Polymer Blends in Melt Processing

Yang, Jinhai

12 May 2008

No description available.

Polypropylene

ethylene butene copolymer

ethylene octene copolymer

polyamide 12

blend

phase morphology

orientation

birefringence

extrusion

melt spinning

coalescence

slippage

Direct Polymerization Of Sulfonated Poly(arylene ether) Random Copolymers And Poly(imide)Sulfonated Poly(arylene ether) Segmented Copolymers: New Candidates For Proton Exchange Membrane Fuel Cell Material Systems

Mecham, Jeffrey B.

26 April 2001

Commercially available 4,4′-dichlorodiphenylsulfone (DCDPS) was successfully disulfonated with fuming sulfuric acid to yield 3,3′-disodiumsulfonyl-4,4′-dichlorodiphenylsulfone (SDCDPS). Subsequently, DCDPS and SDCDPS were systematically reacted with 4,4′-biphenol under nucleophilic step polymerization conditions to generate a series of high molecular weight, film-forming, ductile, ion conducting copolymers. These were converted to the acid form and investigated as proton exchange membranes for fuel cells. Hydrophilicity increased with the level of sulfonation. However, water sorption increased gradually until about 50 mole percent SDCDPS was incorporated, and thereafter showed a large increase to yield water soluble materials for the 100% SDCDPS system. Atomic force microscopy (AFM) confirmed that the morphology of the copolymers displayed continuity of the hydrophilic phase at 60 mole percent SDCDPS. Conductivity measurements in the 40-50 mole percent SDCDPS range, where excellent mechanical strength was maintained, produced values of 0.1 S/cm or higher which were comparable to the control, Nafion™. These compositions also show a high degree of compatibility with heteropolyacids such as phosphotungstic acid. These inorganic compounds provide a promising mechanism for obtaining conductivity at temperatures well above the boiling point of water and membrane compositions containing them are being actively pursued. The water soluble 100% SDCDPS system was further investigated by successfully functionalizing the endgroups to afford aromatic amines via appropriate endcapping with m-aminophenol. Oligomers and polymers from 5-30 kg/mole number average molecular weight were synthesized and well characterized by NMR spectroscopy, endgroup titrations and size exclusion chromatography. The diamino-telechelic sulfonated segment was reacted with several dianhydrides and diamines to produce multiblock, hydrophobic polyimide-hydrophilic sulfonated polyarylene ether copolymers. Both ester-acid and amic acid synthesis routes were utilized in combination with spin-casting and bulk imidization. A series of tough, film-forming segmented copolymers was prepared and characterized. AFM measurements demonstrated the generation of quite well defined, nanophase-separated morphologies which were dependent upon composition as well as aging in a humid environment. Characterizations of the segmented copolymers for conductivity, and water and methanol sorption were performed and comparisons to state-of-the-art perfluorinated Nafion™ systems were made. It is concluded that the segmented or block systems have the potential to enhance certain desirable PEM characteristics in fuel cells, particularly those related to swelling, retention of mechanical strength at elevated temperatures, and critical adhesion issues in membrane electrode assemblies. / Ph. D.

Sulfonic Acid Sites

Poly(arylene ether)

Random Copolymer

Poly(imide)

Direct Copolymerization

Segmented Copolymer

Proton Exchange Membrane

Study of the miscibility, crystallization and morphology in poly(propylene) based blends and copolymers

Cham, Pak-Meng

06 June 2008

This dissertation discusses the polymorphism, crystallization and melting behavior of propylene-ethylene random copolymers. It also discusses the results of studies of the miscibility and the competitive liquid-liquid demixing and crystallization processes in blends of poly(propylene) and poly(1-butene). In the first part of this study, polymorphism of propylene-ethylene copolymers is studied by wide angle X-ray diffraction. By comparing the a and y crystal phase contents in samples with different ethylene content as well as samples isothermally crystallized at different temperatures, it was shown that increasing ethylene content as well as increasing crystallization temperature promotes the formation of the y-phase. Comparison of the results from fractionated samples and unfractionated samples with similar ethylene contents reveals that in propylene-ethylene copolymers with similar micro-structure, the polymorphism, crystallization and melting behavior are mainly determined by their ethylene content. The issue of co-unit inclusion and its effect on crystallization and melting behavior are also discussed. In the second part of this dissertation, the miscibility behavior of atactic - poly(propylene) (at-PP) and atactic poly(1-butene) (ai-P1B) with different molecular weights is investigated by differential scanning calorimetry. The phase diagram of at-PP and at-P1B blend of molecular weight (87K/48.5K) shows a upper critical solution temperature (UCST) behavior. The UCST behavior is consistent with predictions by the group contribution method. Miscibility behavior of high molecular weight isotactic poly(propylene) (it-PP) and isotactic poly(1-butene) (it-P1B) blend is investigated by a combination of optical microscopy and scanning electron microscopy, differential scanning calorimetry and dynamic mechanical analysis. These studies reveal that for the molecular weights investigated, it-PP and it-P1B form blends that are partially miscible in the liquid state. Liquid-liquid demixing is observed by optical microscopy at temperatures above the melting temperature of the it-PP component and is also inferred from scanning electron micrographs of the freeze fracture surface of quenched blends after extraction of the it- P1B component with cyclohexane. It-PP spherulites grow through both liquid phases at relative rates that depend markedly on the crystallization temperature. The complex multiple-melting behavior of the it-PP component in the blend is explained in terms of a bimodal distribution of it-PP lamellar crystals which result from crystal growth in the phase-separated liquid. Finally, the dynamic mechanical analysis data are explained in terms of a liquid-liquid demixing process that results in a significant degree of phase mixing. / Ph. D.

morphology

polymorphism

copolymer crystallization

propylene-ethylene copolymer

poly(1-butene)

poly(propylene)

miscibility

phase separation

LD5655.V856 1996.C435

Cycloalkenyl macromonomers from new multifunctional inimers : a platform for graft, bottle-brush and mikto-arm star copolymers / Macromonomères cycloalcéniques synthétisés à partir d'inimers multifonctionnels originaux : une plateforme pour l'élaboration de copolymères gréffés, en goupillon ou de type "mikto-arm"

Nguyen, Duc Anh

07 January 2016

Le sujet de cette thèse concerne l'élaboration de macromonomères, de copolymères greffés et de polymères étoiles de type 'mikto-arm'. De telles architectures macromoléculaires ont été synthétisées par la combinaison de techniques de polymérisation contrôlées/vivantes telles que la polymérisation par ouverture de cycle (par métathèse) (RO(M)P) etde chimie 'click' orthogonales : cycloaddition 1,3-dipolaireazoturealcyne catalysée au cuivre (CuAAC) et thiol-ène.Dans un premier temps, des macromonomères originaux à fonctionnalité polymérisable (oxa)norbornène portant deux chaînes macromoléculaires poly(e-caprolactone) (PCL) et/ou poly(oxyde d'éthylène) (POE) ont été synthétisés par combinaison ROP/CuAAC. Les macromonomères à fonctionnalité (oxa)norbornène avec deux chaînes PCL de masse molaire moyenne en nombre (Mn) compris entre 1400 et 5000 g/mol ont été obtenus par ROP organocatalysée. La synthèse des macromonomères POE44-b-PCLn à fonctionnalité norbornène avec un bloc PCL de longueur variable (1100 g/mol <Mn< 4100 g/mol) a été réalisée par combinaison CuAAC/ROP à partir d'un POE 2000 g/mol commercial. Ces macromonomères présentent des propriétés d'auto-assemblage dans l'eau avec une concentration micellaire critique et un rayon hydrodynamique dont les valeurs augmentent avec la longueur du bloc hydrophobe PCL. Dans un second temps, la réactivité de la fonctionnalité (oxa)norbornène des macromonomères a été étudiée par spectroscopie RMN 1H, chromatographie SEC et spectrométrie MALDI-ToF. Des copolymères greffés à squelettepoly(oxa)norbornène à haute densité de greffons PCL et POE ont été obtenus par ROMP en présence d'amorceurs de Grubbs selon la stratégie "grafting through". La thiol-ène a également été utilisée avec succès pour accéder à des copolymères étoiles de type 'mikto-arm' à base de PCL, POE poly(N-isopropylacrylamide). / The objective of the present thesis was the preparation of complex macromolecules by the combination of controlled/livingpolymerization methods such as ring-opening (metathesis) polymerization (RO(M)P) and highly efficient orthogonal chemistries: copper-catalyzed azide-alkyne coupling (CuAAC) and thiol-ene reactions.In the first part of this work, a series of well-defined structural (co)polymers containing a cycloolefin (norbornene (NB) oroxanorbornene (ONB)) functionality bearing two polymer chains including poly(ε-caprolactone) (PCL) and/or poly(ethylene oxide) (PEO) have been successfully prepared using the combination of ring-opening polymerization (ROP) and CuAAC ‘click’ chemistry. Well-defined (oxa)norbornenyl-functionalized bis-PCL polymers with PCL chain ranging from 1400 to 5000 g/mol were obtained by organocatalyst-mediated ROP. Norbornenyl-functionalized PEO-b-PCL block copolymers with PCL block in the range 1100 to 4100 g/mol were synthesized from commercially available PEO 2000 g/mol by CuAAC followed by ROP of CL. The presence of a hydrophilic PEO chain and a hydrophobic PCL chain in norbornenylfunctionalizedPEO-b-PCL copolymers gives rise to self-assembling properties in water solution. Critical micellar concentrations (CMC)are in the range of 0.08 – 0.006 g/L for copolymers with PCL chain length ranging from 10 to 36 CL units, respectively. Thecorresponding micelles show hydrodynamic diameters in range of 10 – 23 nm with low polydispersities.In the second part of this work, well-defined copolymers were used to prepare bottle-brush and (mikto-arm) star copolymersthrough reactions involving the cycloolefin functionality. On the one hand, high density grafting bottle-brush copolymerspoly(oxa)norbornene-g-bisPCL, polynorbornene-g-PEO/PCL (PNB-g-(PEO/PCL)) and PNB-b-(PNB-g-(PEO/PCL)) were achieved by ROMP according to the ‘grafting through’ strategy using Grubbs’ catalysts. On the other hand, PCL, PEO, PNIPAM-based 3-arms star, 4-arms star copolymers were obtained via radical thiol-ene reactions as demonstrated by 1H NMR, SEC and MALDI-ToF MS analysis.The high reactivity of these copolymers toward ROMP and thiol-ene reactions makes them interesting candidates in order toprepare new well-defined copolymers with controlled structures and properties through highly efficient synthetic strategies.

Chimie "click"

Thiol-ène

ROMP

Macromonomères

(Oxa)norbornène

Copolymères greffés

Click chemistry

(Oxa)norbornene macromonomers

Well-defined copolymers

Umbrella-like copolymer

Comb-like copolymer

Mikto-arm star copolymer

547.7

Síntese e caracterização do copolímero tribloco anfifílico biodegradável poli(L, L-lactídeo-stat-e-caprolactona)-bloco-poli(óxido de etileno)-bloco-poli(L, L-lactídeo-stat-e-caprolactona). / Synthesis and characterization of triblock anfiphilic biodegradable copolymer poly(l,l-lactide-stat-e-caprolactone)-b-poly(ethylene oxide)-b-poly(l,l-lactide-stat-e-caprolactone).

Lili, Zhao

09 April 2007

Este trabalho apresenta um estudo sobre a síntese e propriedades do copolímero poli(l,l-lactídeo-stat-e-caprolactona)-bloco-poli(óxido de etileno)-bloco-poli(l,l-lactideostat-e-caprolactona). Poli(óxido de etileno) de massa molar 20.000 u.m.a. e poli(óxido de etileno) modificado, preparado a partir de poli(glicol etilênico) de massa molar 4.000 u.m.a., foram selecionados para o processo da síntese. A reação foi feita pela polimerização por abertura de anel em massa a 120ºC usando octoanato de estanho como iniciador. A composição química de cada amostra foi determinada com auxílio de RMN-1H e RMN-13C e suas propriedades mecânicas foram verificadas e comparadas utilizando análises térmicas como DMTA, DSC, TG e a aplicação da MEV como análise complementar. A observação pelas fotos de MOLP permitiu a visualização do comportamento de nucleação dos copolímeros e as características de sua cristalinidade. Seu grau de cristalinidade e as fases cristalinas foram identificados por difração de raios X (WAXS). A biocompatibilidade do material também foi examinada pela cultura de células. Os resultados de caracterização indicam o sucesso da copolimerização, as propriedades elastoméricas e, sua não citotoxidade comprovaram a possibilidade do uso destes copolímeros como biomateriais. Contudo, o tempo prolongado de reação e baixa incorporação do monômero lactídeo ainda são questões a serem melhoradas para a viabilização do copolímero como material de implante na área biomédica. / This work includes the study of the synthesis and characterization of the copolymer poly(l,l-lactide-stat-e-caprolactone)-b-PEG-b-poly(l,l-lactide-stat-e-caprolactone). Poly (ethylene oxide) with molar weight 20.000 and poly(ethylene oxide) modified, prepared from poly(ethylene oxide) with molar weight 4000 have been selected for this synthesis process. The reaction was done by ring-opening bulk polymerization, using stannous octoate as initiator at 120ºC. The chemical composition of samples were determined by 1H-NMR and 13C-NMR and their mechanical properties were verified using thermal analyses like DMTA, DSC and TG. Scanning electron microscopy (SEM) was applied as a complementary analysis. The pictures of polarizing optical microscopy showed us the copolymer\'s nucleation behaviors and their respective crystallization. The degrees of crystallinity and phase of copolymers were determined by WAXS. The biocompatibility of the copolymer was examined by cell cultivation test. The result of these analyses above indicated the success of synthesis. Their rubbery properties and non-toxicity allowed their application as biomaterial. However, the long reaction time and low incorporation of monomer of lactide might to be improved to increase its potential use in biomedical area in the future.

Biodegradable copolymer

Copolímero biodegradável

Copolímero tribloco

Poli(ll-lactídeo-stat-e-caprolactona)

Poli(óxido de etileno)

Poly(ethylene oxide)

Poly(ll-lactide-stat-e-caprolactone)

Triblock copolymer

Synthèses et caractérisations de copolymères à blocs et en étoile à partir de nouveaux amorceurs hétéromultifonctionnels / Synthesis and characterizationof block copolymers and star block copolymers from new heteromultifuntional initiators

Gordin, Claudia

27 February 2009

L'obtention de copolymères à blocs occupe maintenant une place considérable dans la chimie macromoléculaire depuis l'avènement de nouvelles techniques de polymérisations contrôlées (polymérisation anionique coordinée, polymérisation cationique. polymérisation radicalaire contrôlée, ...) en plus de la polymérisation anionique Ces polymérisations contrôlées sont le seul moyen d'obtenir des polymères bien définis et plus particulièrement des copolymères à blocs en étoile. Pour ces copolymères à blocs, le couplage de deux polymères offre l'avantage de combiner leurs propriétés souvent divergentes (des blocs hydrophiles et des blocs hydrophobes, des blocs ioniques et des blocs non ioniques, des blocs rigides et des blocs mous, des blocs amorphes et des blocs cristallins) dans une seule structure. Un intérêt croissant s'est récemment développé pour les copolymères à blocs comportant des polymères biocompatibles et des polymères fonctionnalisés. L'auto-assemblage de copolymères à blocs dans des solvants sélectifs ainsi que la micellisation des copolymères à blocs et leur efficacité en tant que stabilisants d'émulsions sont particulièrement étudiés dans la littérature. Les PDMS sont des matériaux extrêmement intéressants, car ils possèdent de nombreuses propriétés physico-chimiques comparés aux autres polymères: températures de transition vitreuse faibles (env. -120°C) très grande flexibilité de la chaîne, bonne résistance à l'oxydation, résistance thermique et aux UV hydrophobicité, biocompatibilité, haute perméabilité aux gaz et faible énergie de surface. En dépit de leurs nombreuses propriétés particulières, les homopolymères PDMS sont mécaniquement trop faibles pour être utilisés dans différentes applications pratiques. En raison de leurs grands volumes de leur faible énergie de surface et de leur haute flexibilité de chaîne, les PDMS tendent à être rejetés de la matrice quand ils sont mélangés avec d'autres polymères. Un moyen efficace d'augmenter la compatibilité de ces mélanges est de former des copolymères siloxane-polymère organique. La poly(e-caprolactone) (PCL), un polyester aliphatique linéaire, est un polymère biocompatible et biodégradable et il est bien connu pour être miscible avec une grande variété de polymères. Les copolymères à blocs basés sur le PDMS et la PCL combinent les excellentes propriétés du PDMS avec l'effet de compatibilisation de la PCL. Cela en fait d'excellents candidats comme additifs pour la modification de surface, l'encapsulation de médicaments et dans des applications en tant que biomatériaux. La première partie de ce travail de thèse porte sur la synthèse de différents copolymères diblocs (PCL-b-PDMS), triblocs (PCL-b-PDMS-b-PCL) et en étoile (PCL)2-PDMS de masses molaires variables, par polymérisation anionique coordinée de l'e-caprolactone à partir d'un macroamorceur PDMS mono- ou dihydroxylé. Les copolymères à blocs synthétisés ont été caractérisés pour montrer l'influence de leur structure (linéaire ou étoile) sur leurs propriétés thermiques (température de transition vitreuse, température et enthalpie de fusion) et leur morphologie (taux de cristallinité).Le poly(chlorure de vinyle) non plastifié (PVC) est un polymère amorphe, linéaire, thermoplastique, avec un grand intérêt commercial. Quand il est plastifié, le PVC présente des propriétés intéressantes permettant des applications dans le domaine biomédical (tubes de sang pour l'hémodialyse, tubes endotrachéales, cathéters, lentilles de contact, gants, ainsi que l'emballage pour l'entreposage des médicaments). Parmi les plastifiants polymères qui peuvent être utilisés pour le PVC, les polyesters aliphatiques sont d'un grand intérêt, en particulier la poly(e-caprolaclone). Pour conférer une hémocompatibilité il peut être ajouté à ces mélanges des polysiloxanes, en particulier des poly(dimethylsiloxanes). / Synthesis and characterizationof block copolymers and star block copolymers from new heteromultifuntional initiators Synthesis of block copoymers occupies an important place in macromolecular chemistrv since the advent of new techniques for controlled polymerizations (coordinated anionic polymerization, cationic polymerizatio, controlled radical polvmerization,...) in addition to anionic polymerization.

Copolymère à bloc

Copolymère en étoile

Amorceur heteromultifonctionnel

Polymérisation anionique coordinée

Polymérisation par transfert d'atomes

Cristallinité

Biocompatibilité

Plastifiant

Block copolymer

Star copolymer

Coordinated anionic polymerization

Atom transfer polymerization

Order in Thin Films of Diblock Copolymers by Supramolecular Assembly / Ordnung in Dünnen Filmen von Diblock-Copolymeren durch Supramolekulare Strukturierung

Tokarev, Ihor

07 November 2004

Thin membranes with dense periodic arrays of nanoscopic voids were fabricated using the principles of supramolecular assembly and self-organization in polymers. Such nanoporous membranes can be used as templates for synthesis and patterning of various organic and inorganic materials. In this thesis 4-vinylpyridine fragments of polystyrene-block-poly(4-vinylpyridine) (PS-PVP) were associated with the molecules of two different low molar mass additives, 2-(4'-hydroxybenzeneazo)benzoic acid (HABA) and 3-n-pentadecyl phenol (PDP), via hydrogen bonds. The choice of an additive and a solvent is a key factor which influences the morphologies of the PS-PVP+HABA associates (supramolecular assemblies) in thin films. The reversible association via hydrogen bonds allows the amphiphilic molecules of PDP to phase segregate on the free air interface. Unlike, the molecules of HABA remain associated within cylindrical and lamellar domains formed by the PVP block. A solvent used for film deposition influences the orientation of PVP+HABA domains with respect to the confining interfaces. The films deposited from 1,4-dioxane &amp;amp;#8211; a good solvent for PS and a bad one for PVP+HABA &amp;amp;#8211; demonstrated the perpendicular orientation of PVP+HABA domains. Meanwhile, the preparation of films from a chloroform solution &amp;amp;#8211; a good solvent for both PS and PVP+HABA &amp;amp;#8211; led to the parallel alignment. The orientation was independent on the film thickness (within the studied range of 20&amp;amp;#8211;100 nm) and insensitive to the chemical nature of a substrate. The orientation of the domains was shown to switch upon exposure to vapors of the above mentioned solvents from the parallel to perpendicular orientation and vice versa. Moreover, the swelling of the films in solvent vapors resulted in the significant improvement of the domain ordering. Extraction of HABA with selective solvent transformed of PVP+HABA domains into channels with reactive PVP chains on the walls. The resulted membranes with the perpendicular oriented channels (the diameter about 8 nm, the inter-channel distance 24 nm) were used as a template for the creation of ordered arrays of nanodots from nickel, chromium and gold.

Block-Copolymer

Nanostrukturen

Selbststrukturierung

dünne Schichte

block copolymer

nanostructures

self-assembly

thin films

ddc:540

rvk:UP 7500

Blockcopolymere

Dünne Schicht

Nanostruktur

Supramolekulare Struktur