Global ETD Search

31	Design and Characterization of Electrospun Mats with Tailored Morphologies for Enhanced Active Layer Performance in Energy Conversion and Energy Storage Applications Forbey, Scott 15 May 2014 (has links) The goal of this research was to utilize the morphological control inherently imparted by the electrospinning process to improve the active layer performance in energy conversion devices as well as to better understand the relationship between morphology and performance in energy storage devices. Discrete control of the active layer morphology can promote exciton dissociation in organic photovoltaic cells (OPVs), whereas developing efficient ion diffusion pathways and beneficial polymer-ion interaction in polymer-gel electrolytes is demonstrated to result in enhanced battery performance. We demonstrate the ability to develop unique morphologies in Poly(3-hexafluoro propylene) (P3HT) films with energy storage applications using various electrospinning techniques. Electrospinning in a solvent-saturated atmosphere allows for the design of ribbon architectures with polymer domains on the order of 5-10 um. These ribbon structures form what appear to be bi-continuous films, which could then be filled with an acceptor / fullerene type material to create a bulk heterojucton for OPV devices. Dropping chloroform onto the electrospinning needle during the spinning process results in P3HT fibers with porous surfaces. These fibers have diameters of ~ 2 um. Using a coaxial needle to electrospin a P3HT solution in the core, and a CHCl3 sheath solution created hybrid ribbon-fiber structures. These structures have even smaller domain sizes than the ribbons created using a solvent saturated atmosphere. Cospinning P3HT with sacrificial polymers results in P3HT fiber morphologies upon removal of the sacrificial template polymer. Additionally, introducing P3HT into an established fiber matrix results in fibrous P3HT architectures after the template fibers are removed. Developing hybrid polymer-gel electrolytes using crosslinked PEO electrospun fibers results in membranes with high affinity for liquid electrolyte components. These electrospun PEO fiber mats exhibit excellent ionic conductivities at room temperature (12 mS/cm) exceeding an electrospun PVDF control. Furthermore, the PEO fiber mats can absorb nearly three times as much liquid electrolyte as the PVDF control. PEO has been show to interact with lithium salts to aid in dissociation and diffusion during battery cycling. Although the ionic conductivity data suggest PEO to be a superior electrolyte, pulsed-field-gradient NMR shows that lithium diffusion is faster in PVDF samples. From coin cell discharge experiments, PEO is believed to interact strongly with Li+ ions, inhibiting them from diffusing rapidly during fast charge/discharge rates. However, PEO/PETA fiber electrolytes show nearly 100% theoretical capacity discharge at C/100 and a capacity retention of ~ 35% at a C/5 discharge rate in contrast to a glass fiber separator which shows only a capacity that is approximately 85% of the theoretical value. The unique mechanical properties of PEO/PETA electrospun mats could lead to interesting artificial skin and wound healing applications. Upon crosslinking at elevated temperatures (~40 degrees C), the fiber mats exhibit improved tensile strength and much higher ultimate stress at break. The porous nature of the materials lend to easy oxygen diffusion for wound healing, and the hydrophilicity promotes continued adhesion to existing tissue making these mats possible adhesive-less bandages. / Ph. D. electrospinning organic photovoltaic bulk heterojunction lithium polymer battery ionic conductivity photo initiator cross linking energy conversion energy storage
32	Design of polyester and porous scaffolds Odelius, Karin January 2005 (has links) <p>The use of synthetic materials for tissue and organ reconstruction, i. e. tissue engineering, has become a promising alternative to current surgical therapies and may overcome the shortcomings of the methods in use today. The challenge is in the design and reproducible fabrication of biocompatible and bioresorbable polymers, with suitable surface chemistry, desirable mechanical properties, and the wanted degradation profile. These material properties can be achieved in various manners, including the synthesis of homo- and copolymers along with linear and star-shaped architectures. In many applications the materials’ three-dimensional structure is almost as important as its composition and porous scaffolds with high porosity and interconnected pores that facilitate the in-growth of cells and transportation of nutrients and metabolic waste is desired.</p><p>In this work linear and star-shaped polymers have been synthesized by ring-opening polymerization using a stannous-based catalyst and a spirocyclic tin initiator. A series of linear copolymers with various combinations of 1,5-dioxepane-2-one (DXO), Llactide (LLA) and ε-caprolactone (CL) have been polymerized using stannous octoate as catalyst. It is shown that the composition of the polymers can be chosen in such a manner that the materials’ mechanical and thermal properties can be predetermined. A solvent-casting and particulate leaching scaffold preparation technique has been developed and used to create three-dimensional structures with interconnected pores. The achieved physical properties of these materials’ should facilitate their use in both soft and hard tissue regeneration.</p><p>Well defined star-shaped polyesters have been synthesized using a spirocyclic tin initiator where L-lactide was chosen as a model system for the investigation of the polymerization kinetics. Neither the temperature nor the solvent affects the molecular weight or the molecular weight distribution of the star-shaped polymers, which all show a molecular weight distribution below 1.19 and a molecular weight determined by the initial monomer-to-initiator concentration.</p> ring-opening polymerization porous scaffold L-lactide 5-dioxepane-2-one ε-caprolactone spirocyclic initiator star-shaped polyester Polymer chemistry Polymerkemi
33	Initiierungseffektivität von linearen und zyklischen Dialkylperoxiden in der Ethen-Hochdruckpolymerisation / Initiation Efficiency of linear and cyclic dialkylperoxides in high-pressure ethene polymerization Becker, Philipp 31 January 2001 (has links) No description available. 540 Chemie ethene peroxide dialkylperoxide decomposition kinetic transfer constant initiator efficiency polymerization kintetic CSTR 35.80
34	Fidelity Of Translation Initiation In E. coli : Roles Of The Transcription-recycling Factor RapA, 23S rRNA Modifications, And Evolutionary Origin Of Initiator tRNA Bhattacharyya, Souvik 18 January 2016 (has links) (PDF) CSIR / Translation initiation is a rate limiting step during protein biosynthesis. Initiation occurs by formation of an initiation complex comprising 30S subunit of ribosome, mRNA, initiator tRNA, and initiation factors. The initiator tRNA has a specialized function of binding to ribosomal P site whereas all the other tRNAs are selected in the ribosomal A site. The presence of a highly conserved 3 consecutive G-C base pairs in the anticodon stem of the initiator tRNA has been shown to be responsible for its P-site targeting. The exact molecular mechanism involved in the P-site targeting of the initiator tRNA is still unclear and focus of our study. Using genetic methods, we obtained mutant E. coli strains where initiator tRNA mutants lacking the characteristic 3-GC base pairs can also initiate translation. One such mutant strain, A30, was selected for this study. Using standard molecular genetic tools, the mutation was mapped and identified to be a mutation in a transcription remodeling factor, RapA (A511V). RapA is a transcription recycling factor and it displaces S1 when it performs its transcription recycling activity. We found this mutation to cause an increase in the S1-depleted ribosomes leading to decreased fidelity of translation initiation as the mutant RapA inefficiently displaces S1 from RNA polymerase complex. The mutation in the RapA was also found to cause changes in the transcriptome which leads to downregulation of major genes important for methionine and purine metabolism. Using mass spectrometric analysis, we identified deficiencies of methionine and adenine in the strain carrying mutant RapA. Our lab had previously reported that methionine and S-adenosyl methionine deficiency cause deficiency of methylations in ribosome which in turn decreases the fidelity of protein synthesis initiation. We used strains deleted for two newly identified methyltransferases, namely RlmH and RlmI, for our study and these strains also showed decreased fidelity of initiation. RlmH and RlmI methylate 1915 and 1962 positions of 23S rRNA respectively. We found that deletion of these methyltransferases also caused defects in ribosome biogenesis and compromised activity of ribosome recycling factor. We constructed phylogenetic trees of the initiator tRNA from 158 species which distinctly assembled into three domains of life. We also constructed trees using the minihelix or the whole sequence of species specific tRNAs, and iterated our analysis on 50 eubacterial species. We identified tRNAPro, tRNAGlu, or tRNAThr (but surprisingly not elongator tRNAMet) as probable ancestors of tRNAi. We then determined the factors imposing selection of methionine as the initiating amino acid. Overall frequency of occurrence of methionine, whose metabolic cost of synthesis is the highest among all amino acids, remains almost unchanged across the three domains of life. Our results indicate that methionine selection, as the initiating amino acid was possibly a consequence of the evolution of one-carbon metabolism, which plays an important role in regulating translation initiation. In conclusion, the current study reveals the importance of methylations in ribosome biogenesis and fidelity of translation initiation. It also strongly suggests a co-evolution of the metabolism and translation apparatus giving adaptive advantage to the cells where presence of methionine in the environment can be a signal to initiate translation with methionine initiator tRNA. tRNA Ribosome Protein Synthesis Initiator tRNA rRNA RapA Ribosomal RNA Ribosomal Proteins Translation Factors Ribosome Biogenesis 23S rRNA Methyltransferases Transcription-recycling Factor Molecular Biology
35	Design of polyester and porous scaffolds Odelius, Karin January 2005 (has links) The use of synthetic materials for tissue and organ reconstruction, i. e. tissue engineering, has become a promising alternative to current surgical therapies and may overcome the shortcomings of the methods in use today. The challenge is in the design and reproducible fabrication of biocompatible and bioresorbable polymers, with suitable surface chemistry, desirable mechanical properties, and the wanted degradation profile. These material properties can be achieved in various manners, including the synthesis of homo- and copolymers along with linear and star-shaped architectures. In many applications the materials’ three-dimensional structure is almost as important as its composition and porous scaffolds with high porosity and interconnected pores that facilitate the in-growth of cells and transportation of nutrients and metabolic waste is desired. In this work linear and star-shaped polymers have been synthesized by ring-opening polymerization using a stannous-based catalyst and a spirocyclic tin initiator. A series of linear copolymers with various combinations of 1,5-dioxepane-2-one (DXO), Llactide (LLA) and ε-caprolactone (CL) have been polymerized using stannous octoate as catalyst. It is shown that the composition of the polymers can be chosen in such a manner that the materials’ mechanical and thermal properties can be predetermined. A solvent-casting and particulate leaching scaffold preparation technique has been developed and used to create three-dimensional structures with interconnected pores. The achieved physical properties of these materials’ should facilitate their use in both soft and hard tissue regeneration. Well defined star-shaped polyesters have been synthesized using a spirocyclic tin initiator where L-lactide was chosen as a model system for the investigation of the polymerization kinetics. Neither the temperature nor the solvent affects the molecular weight or the molecular weight distribution of the star-shaped polymers, which all show a molecular weight distribution below 1.19 and a molecular weight determined by the initial monomer-to-initiator concentration. / QC 20101217 ring-opening polymerization porous scaffold L-lactide 5-dioxepane-2-one ε-caprolactone spirocyclic initiator star-shaped polyester Polymer Chemistry Polymerkemi
36	Lessing und der Islam Muslim, Zahim Mohammed 01 July 2010 (has links) „Lessing und der Islam“ beschäftigt sich unparteiisch mit Lessings Auseinandersetzung mit dem Islam. Die Arbeit setzt sich das Ziel, den Leser und den Literaturkennern sowie der deutschen Bibliothek der Germanistik etwas von Lessings Auseinandersetzung mit dem Islam in die Hand zu geben, die bis heute als großes Modell für die interkulturelle und interreligiöse Menschheitstoleranzdebatte im Gedächtnis der deutschen Literatur vorhanden ist. Im ersten Teil widmet sich die vorliegende Arbeit den historisch-traditionellen literarischen Hintergründen und Vorkenntnissen Lessings zur islamischen Kultur, und deren Wirkung auf die deutsche Aufklärung im 18. Jahrhundert. In den nächsten Teilen (2-6) beschäftigt sich die Arbeit mit dem Islam in Lessings Werk und den historischen Texten von Voltaire und Marin. Sie konzentriert sich z. B. auf die dramatischen Schaffen und philosophisch-theologischen Schriften dieses deutschen Aufklärers über den Islam wie „Rettung des Hieronymus Cardanus“(1754), „Fatime“- Trauerspiel (1759) und „Nathan der Weise“ (1759) usw. Am Ende wird das Treffen der Religionsvertreter von - Judentum, Christentum und Islam - in „Nathan“ mit der erforderlichen, interkulturellen und interreligiösen Toleranzdebatte als aktuelle Weltfrage verbunden, die als Resultat für diese wissenschafts-literarische Darstellung von Lessings Auseinandersetzung mit dem Islam betrachtet werden kann. / „Lessing and Islam“ deals impartially with Lessings discussion with Islam. The work aims to itself to give the reader and the literature experts as well as the German library of the German studies to somewhat of Lessings discussion with Islam in the hand which exists till this day as a big model for the intercultural and interreligious human tolerance debate in memory of the German literature. In the first part the present work devotes itself to the historical-traditional literary backgrounds and foreknowledge Lessings to the Islamic culture, and their effect on the German clarification in the 18th century. In the next parts (2-6) the work deals with Islam in Lessings to work and the historical texts of Voltaire and Marine. She concentrates, e.g., upon the dramatic creating and philosophical-theological writings of this German reconnaissance plane about Islam like „Rescue Hieronymus Cardanus“(1754), "Fatime" (1759) and „Nathan of the manner“ (1779) etc. At the end is connected the meeting of the religious representatives from - Judaism, Christianity and Islam - in "Nathan" with the necessary, intercultural and interreligious tolerance debate as a topical world question which can be looked as a result for this science-literary representation of Lessings discussion with Islam. Toleranz Islam Dialog Aufklärung Lessing Auseinandersetzung Ringparabel Tausendundeine Nacht Boccaccio Decameron Alfonsis Disciplina Clericalis Nathan Sittah Al-Hafi Luqman Initiator Kulturen Religionen tolerance Islam dialogue Lessing discussion clarification Ring parable Thousandandone night Boccaccio Decameron Alfonsis Disciplina Clericalis Nathan Sittah Al-Hafi Luqman initiator cultures religions 430 Deutsch ddc:430
37	Conjugated Polymer Brushes (Poly(3-hexylthiophene) brushes): new electro- and photo-active molecular architectures Khanduyeva, Natalya 21 January 2009 (has links) (PDF) The aim of the present work was to screen the main methods for the synthesis of conjugated polymers for their suitability in the preparation of conductive polymer brushes. The main focus was put on the grafting of intrinsically soluble substituted regioregular polyalkylthiophenes because of their excellent optoelectronic properties. The resulting polymer films were characterized and their optoelectrical properties studied. For the first time, a synthesis of conductive polymer brushes on solid substrates using “grafting-from” method was performed. The most important, from my opinion, finding of this work is that regioregular head-to-tail poly-3-alkylthiophenes – benchmark materials for organic electronics - can be now selectively grafted from appropriately-terminated surfaces to produce polymer brushes of otherwise soluble polymers - the architecture earlier accessible only in the case of non-conductive polymers. In particular, we developed a new method to grow P3ATs via Kumada Catalyst Transfer Polymerization (KCTP) of 2-bromo-5-chloromagnesio-3-alkylthiophene. Exposure of the initiator layers to monomer solutions leads to selective chain-growth polycondensation of the monomers from the surface, resulting into P3AT brushes in a very economical way. The grafting process was investigated in detail and the structure of the resulting composite films was elucidated using several methods. The obtained data suggests that the grafting process occurs not only at the poly(4-bromstyrene) (PS-Br)/polymerization solution interface, but also deeply inside the swollen PS-Br films, penetrable for the catalyst and for the monomer The grafting process was investigated in detail and the structure of the resulting composite film was elucidated using ellipsometry, X-ray Photoelectron Spectroscopy (XPS), Rutherford backscattering spectroscopy (RBS), and Conductive atomic force microscopy (C-AFM). The obtained data suggests that the grafting process occurs not only at the poly(4-bromostyrene), PS-Br/polymerization solution interface, but also deeply inside the swollen PS-Br film, which is penetrable for the catalyst and the monomer. The process results in an interpenetrated PS-Br/P3HT network, in which relatively short poly(3-hexylthiophene), P3HT grafts emanate from long, cross-linked PS-Br chains. A further method investigated during our work was to covalently graft regioirregular P3HT to substrates modified by macromolecular anchors using oxidative polymerization of 3HT with FeCl3. P3HT layers with variable thicknesses from 30 nm up to 200 nm were produced using two steps of polymerization reaction. The P3HT obtained by oxidative polymerization had always an irregular structure, which was a result of the starting monomer being asymmetric, which is undesired for electronic applications. The third method for the production of conductive polymer brushes was to graft regioregular poly(3,3''-dioctyl-[2,2';5',2'']terthiophene) (PDOTT) by electrochemical oxidative polycondensation of symmetrically substituted 3,3''-dioctyl-[2,2';5',2'']terthiophene (DOTT). A modification of the supporting ITO electrode by the self-assembled monolayers (SAMs) of compounds having polymerizable head-groups with properly adjusted oxidative potentials was found to be essential to achieve a covalent attachment of PDOTT chains. The polymer films produced show solvatochromism and electrochromism, as well as the previous two methods. After polymerization, the next step towards building organic electronic devices is applying the methods obtained in nano- and microscale production. Block copolymers constitute an attractive option for such surface-engineering, due to their ability to form a variety of nanoscale ordered phase-separated structures. However, block copolymers containing conjugated blocks are less abundant compared to their non-conjugated counterparts. Additionally, their phase behaviour at surfaces is not always predictable. We demonstrated in this work, how surface structures of non-conductive block copolymers, such as P4VP-b-PS-I, can be converted into (semi)conductive P4VP-b-PS-graft-P3HT chains via a surface-initiated polymerization of P3HT (Kumada Catalyst Transfer Polymerization (KCTP) from reactive surface-grafted block copolymers. This proves that our method is applicable to develop structured brushes of conductive polymers. We believe that it can be further exploited for novel, stimuli-responsive materials, for the construction of sensors, or for building various opto-electronic devices. The methods developed here can in principle be adapted for the preparation of any conductive block copolymers and conductive polymers, including other interesting architectures of conductive polymers, such as block copolymers, cylindrical brushes, star-like polymers, etc. To this end, one needs to synthesize properly-designed and multi-functional Ni-initiators before performing the polycondensation. poly(3-hexylthiophene) Ni-initiator catalyst chain growth polymerization polymer brushes conjugated polymer brushes photovoltaic cyclic voltammetry block copolymer patterning Self-assembled monolayer (SAM) poly(3-hexylthiophene) Ni-initiator Polymer Bürsten Konjugative Polymer Bürsten Photovoltaik zyklische Voltammetrie Block Copolymer Patterning ddc:540 rvk:VK 8007
38	Conjugated Polymer Brushes (Poly(3-hexylthiophene) brushes): new electro- and photo-active molecular architectures Khanduyeva, Natalya 16 January 2009 (has links) The aim of the present work was to screen the main methods for the synthesis of conjugated polymers for their suitability in the preparation of conductive polymer brushes. The main focus was put on the grafting of intrinsically soluble substituted regioregular polyalkylthiophenes because of their excellent optoelectronic properties. The resulting polymer films were characterized and their optoelectrical properties studied. For the first time, a synthesis of conductive polymer brushes on solid substrates using “grafting-from” method was performed. The most important, from my opinion, finding of this work is that regioregular head-to-tail poly-3-alkylthiophenes – benchmark materials for organic electronics - can be now selectively grafted from appropriately-terminated surfaces to produce polymer brushes of otherwise soluble polymers - the architecture earlier accessible only in the case of non-conductive polymers. In particular, we developed a new method to grow P3ATs via Kumada Catalyst Transfer Polymerization (KCTP) of 2-bromo-5-chloromagnesio-3-alkylthiophene. Exposure of the initiator layers to monomer solutions leads to selective chain-growth polycondensation of the monomers from the surface, resulting into P3AT brushes in a very economical way. The grafting process was investigated in detail and the structure of the resulting composite films was elucidated using several methods. The obtained data suggests that the grafting process occurs not only at the poly(4-bromstyrene) (PS-Br)/polymerization solution interface, but also deeply inside the swollen PS-Br films, penetrable for the catalyst and for the monomer The grafting process was investigated in detail and the structure of the resulting composite film was elucidated using ellipsometry, X-ray Photoelectron Spectroscopy (XPS), Rutherford backscattering spectroscopy (RBS), and Conductive atomic force microscopy (C-AFM). The obtained data suggests that the grafting process occurs not only at the poly(4-bromostyrene), PS-Br/polymerization solution interface, but also deeply inside the swollen PS-Br film, which is penetrable for the catalyst and the monomer. The process results in an interpenetrated PS-Br/P3HT network, in which relatively short poly(3-hexylthiophene), P3HT grafts emanate from long, cross-linked PS-Br chains. A further method investigated during our work was to covalently graft regioirregular P3HT to substrates modified by macromolecular anchors using oxidative polymerization of 3HT with FeCl3. P3HT layers with variable thicknesses from 30 nm up to 200 nm were produced using two steps of polymerization reaction. The P3HT obtained by oxidative polymerization had always an irregular structure, which was a result of the starting monomer being asymmetric, which is undesired for electronic applications. The third method for the production of conductive polymer brushes was to graft regioregular poly(3,3''-dioctyl-[2,2';5',2'']terthiophene) (PDOTT) by electrochemical oxidative polycondensation of symmetrically substituted 3,3''-dioctyl-[2,2';5',2'']terthiophene (DOTT). A modification of the supporting ITO electrode by the self-assembled monolayers (SAMs) of compounds having polymerizable head-groups with properly adjusted oxidative potentials was found to be essential to achieve a covalent attachment of PDOTT chains. The polymer films produced show solvatochromism and electrochromism, as well as the previous two methods. After polymerization, the next step towards building organic electronic devices is applying the methods obtained in nano- and microscale production. Block copolymers constitute an attractive option for such surface-engineering, due to their ability to form a variety of nanoscale ordered phase-separated structures. However, block copolymers containing conjugated blocks are less abundant compared to their non-conjugated counterparts. Additionally, their phase behaviour at surfaces is not always predictable. We demonstrated in this work, how surface structures of non-conductive block copolymers, such as P4VP-b-PS-I, can be converted into (semi)conductive P4VP-b-PS-graft-P3HT chains via a surface-initiated polymerization of P3HT (Kumada Catalyst Transfer Polymerization (KCTP) from reactive surface-grafted block copolymers. This proves that our method is applicable to develop structured brushes of conductive polymers. We believe that it can be further exploited for novel, stimuli-responsive materials, for the construction of sensors, or for building various opto-electronic devices. The methods developed here can in principle be adapted for the preparation of any conductive block copolymers and conductive polymers, including other interesting architectures of conductive polymers, such as block copolymers, cylindrical brushes, star-like polymers, etc. To this end, one needs to synthesize properly-designed and multi-functional Ni-initiators before performing the polycondensation. info:eu-repo/classification/ddc/540 ddc:540
39	Linear block copolymers of L–lactide and 2–dimethylaminoethyl methacrylate : synthesis and properties Kryuchkov, Maksym 02 1900 (has links) Part of the research described in this thesis is conducted in collaboration with Centre d' étude et de Recherche sur les Macromolécules (CERM), Université de Liège, Sart-Tilman, Belgium / Les copolymères séquencés amphiphiles sont très prometteurs pour des applications de technologie de pointe en raison de leur capacité à s'auto-assembler dans des structures bien organisées à l'échelle du micro– et du nanométre, et de leur sensibilité à des stimulations de différentes natures. La formation des nanomotifs bien ordonnés dans les films et/ou en masse fournit un substitut à la nanolithographie et est utile pour le design et l'ingénierie de nanomembranes et de matériaux nanoporeux. L'auto–assemblage dans des solvants sélectifs, en incluant la sensibilité au pH et à la température, peut être ajusté pour correspondre aux besoins de différentes applications biomédicales, telles que l’encapsulation et/ou relargage de médicaments, l'ingénierie de tissus, etc. Dans ce contexte, des copolymères séquencés de type L–lactide (LLA) et méthacrylate 2–diméthylaminoéthyl (DMAEMA) sont d’un grand intérêt. Comme le contrôle sur l'auto–assemblage des copolymères séquencés est permis au niveau moléculaire, il est très important de préparer des copolymères bien définis avec des longueurs de bloc prévisibles et de faible polydispersité. Ainsi, une partie de cette étude a été consacrée au développement de procédures synthétiques optimales et à la caractérisation détaillée de copolymères di– et triblocs de LLA et de PDMAEMA. Un outil simple pour déterminer la présence d'homo–PLLA résiduel a été développée; cela a permis de déterminer et d'expliquer plusieurs voies de synthèse indésirables. La dernière inclut la participation possible de l'amorceur bifonctionnel utilisé, et nous avons alors proposé un système alternatif d'amorceur bifonctionnel/catalyseur. La racémisation du LLA par les unités amine de (P)DMAEMA a été observée pendant la polymérisation, limitant ainsi l'utilisation première du bloc PDMAEMA pour la préparation des copolymères PLLA–b–PDMAEMA. Les études thermiques et de cristallisation, en incluant les copolymères séquencés partiellement quaternisés, ont révélé un retard significatif de la vitesse de cristallisation, en présence du bloc de PDMAEMA. Nous avons constaté que les blocs sont miscibles pour de faibles masses molaires et que la miscibilité partielle est maintenue après quaternisation. Selon la longueur et le taux de quaternisation du bloc PDMAEMA, la cristallisation du PLLA a été étudiée dans un environnement restreint et confiné, faiblement ou fortement. La torsion des lamelles cristallines observée pour certains copolymères biséquencés a été accentuée dans les copolymères triséquencés, où la formation de sphérolites annelés a été observée dans toutes les conditions thermiques utilisées. / Multi–functional amphiphilic block copolymers have much promise for various high technology applications thanks to the controlled stimuli–responsive self–assembly into well–organized structures on the micro– and nanometer scales. The formation of well–ordered nanopatterns in films and/or in bulk provides a competitive substitute to nanolithography and is useful in the design and engineering of nanomembranes and nanoporous materials. Solution self–assembly in selective solvents, including pH and temperature sensitivity, can be tuned to match the needs of different biomedical applications, such as drug encapsulation/delivery, tissue engineering, etc. In this context, block copolymers of L–lactide (LLA) and 2–dimethylaminoethyl methacrylate (DMAEMA) are of great interest. Since the control over self–assembly of block copolymer systems is enabled on a molecular level, it is of great importance to prepare well–defined block copolymers with predictable block lengths and low polydispersity. Thus, a major part of the research in this study was devoted to developing optimal synthetic procedures with detailed characterization of linear di– and triblock copolymers of LLA and PDMAEMA. A simple tool to determine homo–PLLA impurity was developed, which helped to determine and explain several undesired routes. The latter includes possible involvement of the bifunctional initiator used, and an alternative bifunctional initiator/catalyst system was proposed. Racemization of LLA by (P)DMAEMA moieties was observed during LLA polymerization thus limiting the utilization of PDMAEMA–first approach for the preparation of PLLA–b–PDMAEMA. Thermal and crystallization studies, including on quaternized block copolymers, revealed a significant retardation effect of the PDMAEMA block on the crystallization kinetics. The blocks were found to be miscible in the melt at low molecular weights, and maintained partial miscibility after quaternization. Depending on the length and the quaternization degree of PDMAEMA, PLLA crystallization was studied in a templated, soft or hard confinement environment. Crystalline lamellae twisting observed in certain diblock copolymers was facilitated in triblock copolymers, where the formation of banded spherulites was observed in all thermal conditions used. Copolymères Séquencés L–lactide Méthacrylate Octoate d′étain Cristallisation Avrami Sphérolite Amorceur bifonctionnel Synthèse en une étape Block copolymer L–lactide Methacrylate Tin octoate Crystallization Avrami Spherulite Bifunctional Initiator One–pot Synthesis
40	Synthesis and characterization of stimuli-responsive microgels based on poly(glycidol)block copolymers / Synthese und Charakterisierung von stimuli-sensitiven Mikrogelen basierend auf Polyglycidol-Blockcopolymeren Mendrek, Sebastian 24 April 2006 (has links) (PDF) New water soluble, attainable to ATRP polymerization Cl-terminated poly(glycidol) macroinitiators were prepared by modification of (Omega)-hydroxyl group of poly(glycidol acetal) using 2-chloropropionyl chloride fallowed by selective acidic deprotection of acetal groups. The obtained macroinitiators of different molar masses were successfully employed in ATRP of NIPAM and 4VP to give well-defined stimuli sensitive block copolymers of targeted molar ratio of blocks. The results obtained from light scattering methods showed formation of stable aggregates upon stimuli (pH or temperature) by all the obtained polymers. Additionally, photocrosslinkable block copolymers of glycidol and NIPAM having incorporated moieties of chromophore (2-(dimethyl maleinimido)-N-ethyl-acryl amide) were prepared using macroinitiator technique and used to synthesis of temperature sensitive microgels. Conjunction points have been successfully formed by UV irradiation of polymer water solution above cloud point. The influence of such parameters like block ratio, block length, amount of chromophore, concentration, irradiation time, temperature and heating rate on the properties of obtained microgels was investigated. The obtained core-shell structures were stable under critical conditions and showed continuous volume phase separation process upon increase of temperature, fully reversible and reproducible (no hysteresis effect). Thus, the proposed method not only gave the opportunity to control size or swelling degree of microgels, but also diminished gradient in crosslinking density (random chromophore distribution in polymer backbone), improved colloid stability (poly(glycidol) shell) and completely eliminated additives (surfactants, initiators, stabilizers). ATRP Anionische Polymerisation Blockcopolymere Makroinitiator stimuli-sensitiv ATRP Anionic Polymerisation Macroinitiator block copolymers stimuli-sensitive ddc:540 rvk:VK 8007 Anionische Polymerisation Atom-Transfer-Polymerisation Blockcopolymere Initiator &lt;Chemie&gt; Mikrogel

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