Synthèse et étude d’architectures complexes à base de poly(lactide) et de poly(2-isopropyl-2-oxazoline) pour des applications biomédicales

Bullet, Jean-Richard

12 1900

Le traitement du cancer est l’un des plus grands défis en chimie médicinale moderne. La majorité des traitements utilisés repose sur la chimiothérapie, impliquant l’emploi de molécules bioactives cytotoxiques. Bien qu’efficaces, ces molécules présentent, pour la plupart, des désavantages notoires tels que le manque de spécificité cellulaire et une solubilité limitée en phase aqueuse. Une façon de remédier aux problèmes exposés est de solubiliser ces molécules au sein de matrices polymères. Il existe différents types de matrices qui sont : les liposomes, les micelles, les nanosphères, les nanocapsules, les dendrimères (et les polymères en étoile), et les polymères conjugués et linéaires. Dans cette thèse, nous faisons l’étude de deux matrices polymères potentielles composées de matériaux biocompatibles : le polylactide et la poly(2-isopropyl-2-oxazoline). La première partie de la thèse, est consacrée à l’étude des polyester-co-éthers portant des groupements pendants fonctionnalisables. Nous avons développé ces copolymères par polymérisation aléatoire en masse de lactones (le lactide ou la caprolactone) et différents taux d’éthers de propargyle et de glycidyle (GPE), à 120°C, en utilisant l’octanoate d’étain comme catalyseur. L’efficacité de la copolymérisation a été mise en évidence par des analyses FTIR, RMN 1H et COSY. Toutefois, L’analyse GPC a montré une diminution de la masse molaire des polymères et un élargissement de la dispersité en rapport avec l’augmentation du taux de glycidyle initial. De plus, les analyses RMN 1H ont montré que le taux de propargyl (provenant de l’éther de glycidyle) au sein du copolymère ne dépassait pas 50%. La faisabilité des modifications post-polymérisation a été évaluée en couplant le (9-azidomethyl) anthracène au chaîne de poly(ester-co-éther)s via la chimie clic CuAAC. Cette méthode s’est révélée inoffensive pour la chaîne de polyesters. Des études de cytotoxicité ont prouvé l’innocuité des poly(ester-co-éther)s. Des nanoparticules sphériques ont été préparées à partir de ces polymères et peuvent être utilisées comme nanosphères pour le transport de molécules bioactives hydrophobes. La copolymérisation des lactones avec des éthers de glycidyles s’avère être une stratégie intéressante de fonctionnalisation des chaînes des polyesters permettant la synthèse d’une large gamme de copolymères pour des applications biomédicales. Afin d’améliorer la synthèse des poly(ester-co-ether)s, nous avons proposé une approche mécanistique tenant compte des réactions de transfert de chaînes. Dans la deuxième partie de la thèse, nous avons étudié un polymère en étoile composé d’un polymère thermosensible : la poly(2-isopropyl-2-oxazoline) PIPOZ. Nous avons premièrement exploré deux approches synthétiques afin d’obtenir une série d’étoiles de PIPOZ (S-PIPOZ) de structure bien définié à savoir l’approche « coupling-onto » et l’approche « core-first ». Une première série de S-PIPOZ a été réalisée directement à partir d’un coeur pentaérythrityl tétratosylés par polymérisation cationique par ouverture de cycle (CROP) de 2-isopropyl-2-oxazoline pour l’approche « core-first ». Pour l’approche « coupling-onto », une deuxième série de S-PIPOZ a été réalisée par couplage via la CuAAC entre des PIPOZ-N3 linéaire (L-PIPOZ N3) et un cœur à 4 bras portant des alcynes terminaux. Tous les S-PIPOZs obtenus ont été analysés par RMN 1H, IR, MALLS-LS, des analyses UV et par microcalorimétrie différentielle à balayage (HS-DSC). Les polymères obtenus par l’approche « core-first » ont montré une microstructure mal-définie comparé à ceux obtenus par l’approche « coupling-onto ». Suite à ces résultats, nous avons défini l’approche « coupling-onto » comme voie d’obtention des S-PIPOZ. Une explication sur la structure mal-défini des polymères obtenus par l’approche « core-first » sera développée dans cette section. Nous exposerons aussi une méthode de purification permettant l’élimination rapide et efficace des L-PIPOZ N3 qui contaminent les échantillons de S-PIPOZ faits par l’approche « coupling-onto ». Cette méthode peut être applicable à d’autres polymères thermosensibles dans une certaine gamme de température. Dans la troisième partie, nous avons étudié l’effet de l’architecture et de la composition des bras-polymères sur la température de transition de phase et les propriétés des S-PIPOZs. Afin d’étoffer notre étude nous avons synthétisé un polymère en étoile à bloc composé de PIPOZ et de poly(éthylène glycol) PEG. Cette étude a été réalisée en examinant des solutions chauffées de polymères (S-PIPOZ, S-PIPOZ-b-PEG et tous les précurseurs linéaires) par des analyses de spectrométrie d’absorption UV, HS-DSC, diffusion de la lumière LS. Nous avons évalué la présence ou l’absence de cristaux au sein d’échantillons de S-PIPOZs provenant de solutions chauffées. Cette évaluation a été réalisée par diffusion des rayons-X aux grands angles (WAXS) et par microscopie électronique à transmission (TEM) et à balayage (SEM). La présence de cristaux est néfaste pour la conception de nanomatériaux destinés à des applications biomédicales. Nous exposons aussi dans cette section une méthode basée sur l’amination réductrice permettant de fonctionnaliser les S-PIPOZ avec différents types de macromolécules. Cette thèse expose les avantages et les inconvénients (synthèses, fonctionnalisation, structures…) des PLA-co-GPE et des S-PIPOZs et constitue dans son ensemble à une première ébauche vers une conception améliorée de futurs nanomatériaux. / Treatment of cancer is one of the biggest challenges in modern medicinal chemistry. The vast majority of treatments are based on chemotherapy, involving the use of cytotoxic bioactive molecules. Although effective, most of these bioactive molecules have notorious drawbacks, such as the lack of cellular specificity and limited solubility in aqueous media. A way to address these problems is to dissolve these bioactive compounds into polymer matrices. There are different types of matrices, including liposomes, micelles, nanospheres, nanocapsules, dendrimers (and star-polymers), and conjugate and linear polymers. In this thesis, we explored two different prospective polymers that can be used as matrices. Both are composed of biocompatible materials: polylactide and poly(2-isopropyl-2-oxazoline). The first part of the thesis is dedicated to the investigation of polyester-co-ether with functionalizable pendant groups. First, we developed the polyester-co-ether by copolymerization of lactones (lactide or caprolactone) with different ratios of glycidyl propargyl ether (GPE) in the bulk at 120°C in the presence of Sn(Oct)2. The efficiency of the copolymerization was evidenced by FTIR, 1H and COSY NMR analyses. However, GPC analyses displayed a decrease of molecular weights and a broadening of the molecular weight dispersity with increasing of the epoxide molar ratio in the feed. 1H NMR analyses showed that the propargyl content from the epoxide does not exceed 50%. The feasibility of post-polymerization functionalization was evaluated by coupling anthracene to the poly(ester-co-ether)s through copper-catalyzed alkyne-azide cycloaddition (CuAAC). The polyester chain was found to support this reaction. Toxicity studies showed that the poly(ester-co-ether) was non-toxic. Spherical nanoparticles were prepared from these polymers. They can be suitable nanospheres for drug delivery. The copolymerization of lactone with glycidyl ether is an interesting approach to functionalize the PLA (or poly(ester)) main chain. It is also a powerful and straightforward strategy to synthesize a large array of functionalized polymers for biomedical applications. In order to improve the synthesis of the polyester-co-ether, we investigated the copolymerization mechanism of the chain transfer reactions leading to the chain reductions and we suggested a mechanistic explanation. In the second part of this thesis, we focused on developing star-polymers from the thermosensitive (2-isopropyl-2-oxazoline) polymer. In order to prepare a well-defined set of star-poly(2-isopropyl-2oxazoline) S-PIPOZs, we explored two different synthetic approaches: the “coupling-onto” and the “core-first” approach. Two sets of S-PIPOZs were prepared by these approaches. For the “core-first” approach, a set of S-PIPOZ was prepared by direct cationic ring opening polymerization (CROP) from a tetra tosylate-functionnalized pentaerythrityl core. For the “coupling-onto approach”, the S-PIPOZs were prepared by ligation between L-PIPOZ-N3 and a 4-arm core with an alkyne group via CuAAC. The prepared polymers were analysed by 1H NMR, IR, Multi Angles Laser Light Scattering - Gel Permeation Chromatography (MALLS-GPC), UV absorption spectroscopy and High Sensitive Differential Scanning Microcalorimetry (HS-DSC). Polymers obtained by the “core-first” approach shows ill-defined microstructure compared to those obtained by the “coupling-onto” approach. In light of these encouraging results, the “coupling-onto” method was pursued for preparing S-PIPOZ. An explanation on the ill-defined structure will be provided within this thesis. Moreover, we developed a purification method for the fast and efficient removal of free PIPOZs, which otherwise contaminate the star-PIPOZ samples that are prepared by the coupling-onto approach. This method is applicable to other thermosensitive polymers within a certain range of temperature. In the third part, we focused on the effect of the architecture and composition of the S-PIPOZs on the phase transition temperature of the polymer. For this, we synthesized a hetero-star block copolymer composed of PIPOZ and poly(ethylene glycol) PEG. This study was carried out by examining the aqueous polymer solution (the linear precursors, S-PIPOZs, S-PIPOZ-b-PEG) upon heating via UV spectroscopy, HS-DSC and light scattering. We also assessed the temperature-induced crystallinity of the Star-PIPOZs by Transmission (TEM) and Scanning (SEM) Electron Microscopy, WAXS. This is important for biomedical nanodevices. We also provided a straightforward method, based on aminative reduction, to functionalize the S-PIPOZ with different macromolecules. This thesis discusses the advantages and the drawbacks related to the synthesis, functionalization, structures of PLA-co-GPE and the star-PIPOZs. Overall, this represents a pioneering study for improving the design of prospective nanodevices.

Acide poly(lactique)

Poly(ester-co-ether)

Poly(2-isopropyl-2-oxazoline)

Polymère en étoile

Polymère thermosensible

Fonctionnalisation post-polymérisation

Délivrance de médicament

Poly(lactic acid)

Poly(ester-co-ether)

Star-polymer

Thermosensitive polymer

Post-polymerisation functionalization

Drug delivery

A study of controlled auto ignition (CAI) combustion in internal combustion engines

Milovanović, Nebojša

January 2003

Controlled Auto Ignition (CAI) combustion is a new combustion principle in internal combustion engines which has in recent years attracted increased attention. In CAI combustion, which combines features of spark ignition (SI) and compression ignition (CI) principles, air/fuel mixture is premixed, as in SI combustion and auto-ignited by piston compression as in CI combustion. Ignition is provided in multiple points, and thus the charge gives a simultaneous energy release. This results in uniform and simultaneous auto-ignition and chemical reaction throughout the whole charge without flame propagation. CAI combustion is controlled by the chemical kinetics of air/fuel mixture with no influence of turbulence. The CAI engine offers benefits in comparison to spark ignited and compression ignited engines in higher efficiency due to elimination of throttling losses at part and idle loads. There is a possibility to use high compression ratios since it is not knock limited, and in significant lower NOx emission (≈90%) and particle matter emission (≈50%), due to much lower combustion temperature and elimination of fuel rich zones. However, there are several disadvantages of the CAI engine that limits its practical application, such as high level of hydrocarbon and carbon monoxide emissions, high peak pressures, high rates of heat release, reduced power per displacement and difficulties in starting and controlling the engine. Controlling the operation over a wide range of loads and speeds is probably the major difficulty facing CAI engines. Controlling is actually two-components as it consists of auto-ignition phasing and controlling the rates of heat release. As CAI combustion is controlled by chemical kinetics of air/fuel mixture, the auto-ignition timing and heat release rate are determined by the charge properties such as temperature, composition and pressure. Therefore, changes in engine operational parameters or in types of fuel, results in changing of the charge properties. Hence, the auto-ignition timing and the rate of heat release. The Thesis investigates a controlled auto-ignition (CAI) combustion in internal combustion engines suitable for transport applications. The CAI engine environment is simulated by using a single-zone, homogeneous reactor model with a time variable volume according to the slider-crank relationship. The model uses detailed chemical kinetics and distributed heat transfer losses according to Woschini's correlation [1]. The fundamentals of chemical kinetics, and their relationship with combustion related problems are presented. The phenomenology and principles of auto-ignition process itself and its characteristics in CAI combustion are explained. The simulation model for representing CAI engine environment is established and calibrated with respect to the experimental data. The influences of fuel composition on the auto-ignition timing and the rate of heat release in a CAI engine are investigated. The effects of engine parameters on CAI combustion in different engine concepts fuelled with various fuels are analysed. The effects of internal gas recirculation (IEGR) in controlling the auto-ignition timing and the heat release rate in a CAI engine fuelled with different fuels are investigated. The effects of variable valve timings strategy on gas exchange process in CAI engine fuelled with commercial gasoline (95RON) are analysed.

629.254

Électrofilage de fibres à partir de mélanges polystyrène/poly(vinyl méthyl éther)

Valiquette, Dominic

08 1900

L’électrofilage est un procédé permettant de préparer des fibres possédant un diamètre de l’ordre du micromètre ou de quelques centaines de nanomètres. Son utilisation est toutefois limitée par le manque de contrôle sur la structure et les propriétés des fibres ainsi produites. Dans ce travail, des fibres électrofilées à partir de mélanges de polystyrène (PS) et de poly(vinyl méthyl éther) (PVME) ont été caractérisées. La calorimétrie différentielle à balayage (DSC) a montré que les fibres du mélange PS/PVME sont miscibles (une seule transition vitreuse) lorsque préparées dans le benzène, alors qu'une séparation de phases a lieu lorsque le chloroforme est utilisé. Les fibres immiscibles sont néanmoins malléables, contrairement à un film préparé par évaporation du chloroforme qui a des propriétés mécaniques médiocres. Des clichés en microscopies optique et électronique à balayage (MEB) ont permis d’étudier l'effet de la composition et du solvant sur le diamètre et la morphologie des fibres. Des mesures d’angles de contact ont permis d’évaluer l’hydrophobicité des fibres, qui diminue avec l’ajout de PVME (hydrophile); les valeurs sont de 60° supérieures à celles des films de composition équivalente. Un retrait sélectif du PVME a été réalisé par l’immersion des fibres dans l’eau. La spectroscopie infrarouge a montré que la composition passe de 70 à 95% de PS pour une fibre immiscible mais seulement à 75% pour une fibre miscible. Ces résultats indiquent que la phase riche en PVME se situe presque uniquement à la surface des fibres immiscibles, ce qui a été confirmé par microscopie à force atomique (AFM) et MEB. Finalement, l’effet du mélange des deux solvants, lors de l’électrofilage du mélange PS/PVME, a été étudié. La présence du chloroforme, même en quantité réduite, provoque une séparation de phases similaire à celle observée avec ce solvant pur. / Electrospinning is a simple method for the preparation of polymer fibers with diameters of hundreds of nanometers to a few micrometers. Although it is a versatile method, some issues remain in the control of the structure and properties of electrospun fibers. In this study, fibers electrospun from polystyrene (PS)/poly(vinyl methyl ether) (PVME) blends were characterized. Differential scanning calorimetry (DSC) revealed that fibers electrospun from benzene are miscible while a phase separation occurs when the fibers are electrospun from chloroform. While films cast from chloroform show poor mechanical properties, immiscible fibers are ductile. The effects of the blend composition and the solvent on the fiber diameter and morphology were observed by scanning electron microscopy (SEM) and optical microscopy. Afterwards, contact angle measurements were made to evaluate the hydrophobicity of the fibers which decreases as hydrophilic PVME is added to the blend; the values for the fibers were found to be 60° higher than their equivalent in films. PVME was selectively removed from the immiscible fibers by complete immersion into water. Infrared spectroscopy revealed that this process increases the PS content from 70 to 95% for immiscible fibers but only to 75% for miscible fibers. These results show that the PVME-rich phase is almost completely distributed on the fiber surface, which was confirmed by atomic force microscopy (AFM) and SEM. Finally, the electrospinning of PS/PVME blends from chloroform/benzene solutions was studied. The presence of chloroform, even as a residual amount, causes a phase separation just as it does in fibers electrospun from pure chloroform.

Électrofilage

Fibres polymères

Miscibilité

Séparation de phase

Electrospinning

Polymer fibers

Miscibility

Phase separation

Éthéréalisation : amorces d'une contre-histoire

Thibault, Ghislain

10 1900

Cette thèse est une enquête épistémologique qui s’interroge sur la persistance de « l’éther » dans le champ de la technologie. De façon générale, le mot « éther » évoque un modèle conceptuel de la physique pré-einsteinienne, celui d’un milieu invisible permettant la propagation de la lumière et des ondes électromagnétiques. Or, ce n’est là qu’une des figures de l’éther. Dans plusieurs mythologies et cosmogonies anciennes, le nom « éther » désignait le feu originel contenu dans les plus hautes régions célestes. Aristote nommait « éther », par exemple, le « cinquième être », ou « cinquième élément ». La chimie a aussi sa propre figure de l’éther où il donne son nom à un composé chimique, le C4H10O, qui a été utilisé comme premier anesthésiant général à la fin du XIXe siècle. L’apparition soutenue dans l’histoire de ces figures disparates de l’éther, qui a priori ne semblent pas entretenir de relation entre elles, est pour nous la marque de la persistance de l’éther. Nous défendons ici l’argument selon lequel cette persistance ne se résume pas à la constance de l’attribution d’un mot ou d’un nom à différents phénomènes dans l’histoire, mais à l’actualisation d’une même signature, éthérogène. À l’invitation d’Agamben et en nous inspirant des travaux de Nietzsche et Foucault sur l’histoire-généalogie et ceux de Derrida sur la déconstruction, notre thèse amorce une enquête historique motivée par un approfondissement d’une telle théorisation de la signature. Pour y parvenir, nous proposons de placer l’éther, ou plutôt la signature-éther, au cœur de différentes enquêtes historiques préoccupées par le problème de la technologie. En abordant sous cet angle des enjeux disparates – la légitimation des savoirs narratifs, la suspension des sens, la pseudoscience et la magie, les révolutions de l’information, l’obsession pour le sans-fil, l’économie du corps, la virtualisation de la communication, etc. –, nous proposons dans cette thèse autant d’amorces pour une histoire autre, une contre-histoire. / This dissertation stands as an epistemological inquiry into the persistence of the notion of ether within technology’s discursive field. Most often, the word “ether” is understood as a conceptual model in pre-einsteinian physics which designates the medium responsible for the propagation of electromagnetic waves and light. However, this proves to be only one of the many figures of ether. In multiple mythologies and cosmogonies, ether was also the name employed to refer to a sublime and pure fire filling the highest spaces of the universe. Aristotle, for example, named “ether” what he considered to be the “fifth being,” or the “fifth element.” Chemistry also makes use of ether, where the name denominates the compound C4H10O, used as the first general anaesthetic agent at the end of the nineteenth century. From our point of view, the sustained occurrences of ether in these different figures, so disparate indeed that they appear unrelated, marks the manifestation of its persistence. We argue that this persistence should not be narrowed down to a constant attribution of a “word” or a “name” to several historical phenomenons, but rather should be viewed as the actualization of a same etherogeneous “signature.” Responding to an invitation by Italian philosopher Agamben, and building on Nietzsche’s and Foucault’s history-genealogy as well as on Derrida’s deconstruction, our dissertation proposes an historical program oriented towards a theorization of the signature. To do so, we suggest locating the ether, or rather the ether-signature, at the heart of several historical inquiries concerned with the contemporary problem with technology. Approaching some of theses issues –the legitimating of narrative knowledge, the suspension of the senses, pseudoscience and mysticism, information and industrial revolutions, wireless obsessions, body and corporeality, virtualization of communication, etc. –, our dissertation aims at locating and articulating as many baits towards an-other history, a counter-history.

Éther

Technologies de l'information

Éternel retour

Révolution de l‘information

Théories médiatiques

Sans-fil

Cyberculture

Agamben

Foucault

Mythe

Ether

Information technologies

Eternal return

Information revolution

Media theory

Wireless

Cyberculture

Agamben

Foucault

Mythology

Propriétés supramoléculaires des cations diimidazolium disubstitués : des complexes d’inclusion en solution aux interactions à l’état cristallin et cristal liquide

Noujeim, Nadim

08 1900

Les sels d’imidazolium ont un rôle important dans certaines protéines et acides nucléiques et ont été utilisés à de nombreuses reprises dans des assemblages supramoléculaires en raison de leurs propriétés uniques. Les sels de diimidazolium dérivés sont toutefois moins connus. Ils ont pour l’instant uniquement été utilisés comme des précurseurs de carbènes N-hétérocycliques. Ils sont donc à la base de plusieurs catalyseurs utilisés pour des réactions de couplage croisés mais leurs propriétés sont toutefois méconnues dans le cadre de la chimie supramoléculaire. Cette classe de composés a nottament attiré notre attention en raison de la facilité de modification de leurs propriétés physico-chimiques par modification de leur structure chimique. L’objectif général des travaux présentés dans cette thèse est l’étude des propriétés supramoléculaires des sels de diimidazolium disubstitués en solution (aqueuse ou organique), ainsi qu’en phase solide ou cristal-liquide. L’influence de l’espaceur entre les deux noyaux imidazolium ainsi que l’influence des substituants latéraux et des contre-ions a été étudiée. Dans un premier temps, les propriétés de complexation des sels de diimidazolium à des macrocycles sont étudiées. Les sels bromure sont étudiés en solution aqueuse avec plusieurs cyclodextrines et le cucurbit[7]uril, et les sels hexafluorophosphate sont étudiés en solution organique pour leur complexation avec l’éther couronne DB24C8 et un calix[4]arène. Cette nouvelle classe de composés a montré de très bonnes propriétés de complexation à ces différents macrocycles en solution et a également permis de contrôler différents assemblages supramoléculaires à l’interface air-eau. Dans un deuxième temps, l’étude des sels de phénylènediimidazolium a permis de modifier les propriétés de complexation en solution pour obtenir la formation de complexes multiples avec le cucurbit[7]util en solution aqueuse. Cette même famille de composés a également permis la formation de cristaux liquides ioniques lorsque les substituants sont des chaînes alkyles plus longues. La résolution de plusieurs structures cristallines de différents sels de diimidazolium a finalement permis de comprendre la nature des interactions intermoléculaires à l’état cristallin. La recherche présentée dans cette thèse a donc permis une étude détaillée des propriétés supramoléculaires des sels de diimidazolium dans tous les états de la matière qui leur sont accessibles. / Imidazolium salts play an important role in different proteins and nucleic acids and have been used many times in supramolecular assemblies due to their unique properties. Diimidazolium salts derived from imidazolium salts are less known. To date, they have only been used as precursors for N-heterocyclic carbenes, which are used to catalyze various cross-coupling reactions. Their properties are not well known in supramolecular chemistry. This class of compounds attracted our attention because of the ease of tuning their properties by modifying their chemical structure. The main goal of the research presented in this thesis was to study the supramolecular properties of disubstituted diimidazolium salts in solution (aqueous or organic solution), in the solid state and in the liquid-crystalline state. The role of the spacer between the two imidazolium moieties, of the sidechains and of the counterions was studied. Firstly, the complexation between diimidazolium salts and various macrocycles was studied. Bromide salts were studied in aqueous solution with cyclodextrins and cucurbit[7]uril, while hexafluorophosphate salts were studied in organic solution with a DB24C8 crown ether and a calix[4]arene. This novel class of compounds showed very promising complexation properties with these macrocycles in solution and also allowed us to control the formation of various supramolecular assemblies at the air-water interface. Secondly, phenylenediimidazolium salts were studied and allowed the modification of the complexation properties in aqueous solution. Multiple complexes can be formed simultaneously with cucurbit[7]uril in aqueous solution. The same class of compounds also has the ability to yield ionic liquid crystals when the alkyl sidechains are long. The resolution of the crystalline structures of some synthesized diimidazolium salts allowed us to understand the nature of the intermolecular interactions in the solid state. The research presented in this thesis is a complete study of the supramolecular properties of diimidazolium salts in every accessible state of matter.

Chimie supramoléculaire

Chimie hôte-invité

Complexes

Cristaux liquides

Génie cristallin

Imidazolium

Auto-assemblage

Cyclodextrine

Cucurbituril

Éther-couronne

Calixarène

Supramolecular chemistry

Host-guest chemistry

Liquid crystals

Crystal engineering

Self-assembly

Cyclodextrin

Crown ether

Calixarene

Activation non-métallique de la polymérisation anionique par ouverture de cycle des cyclopropane-1,1-dicarboxylates : application à la synthèse de transporteurs transmembranaires

Illy, Nicolas

10 December 2009

La base phosphazène ButP4 associée au thiophénol ou au bis (2-mercaptoéthyl) éther a été utilisée avec succès pour amorcer quantitativement la polymérisation anionique par ouverture de cycle des monomères cyclopropane-1,1-dicarboxylates de dialkyle. Pour des températures comprises entre 30 et 60°C dans le THF ou entre 30 et 100°C dans le toluéne, le mécanisme observé est celui d'une polymérisation anionique vivante qui conduit à des polymères présentant des indices de polymolécularité faibles et dont les Mn expérimentaux (mesurés par SEC et RMN 1H) sont en accord avec les valeurs théoriques. D'autres systèmes déamorçage comme le carbazole ou des composés possédant un proton acide associés à ButP4 conduisent également à des polymères bien définis. Une étude cinétique montre que l'ordre interne en monomère est égal à 1 sur l'ensemble de la gamme de conversion. Le système déamorçage thiophénol / ButP4 dans le THF présente une réactivité bien supérieure à celle du thiophénolate de sodium dans le DMSO qui est le système classique d'amorçage pour ce type de polymérisation. Différents agents de terminaison, comme l'acide chlorhydrique, le bromure d'allyle ou le bromure de propargyle, ont été utilisés pour terminer les réactions et ont conduit à l'obtention de polyméres hétérotéléchéliques. D'autres dérivés de cyclopropanes présentant des substituants variés ont également été examinés. Ces résultats ouvrent de très intéressantes perspectives dans la préparation d'architectures complexes comme des copolyméres à blocs, greffés ou en étoile. Les premières expériences de copolymérisation ont d'ailleurs été couronnées de succès. Afin d'obtenir de nouveaux canaux ioniques artificiels, différents monomères cyclopropane-1,1- dicarboxylates porteurs d'éthers-couronne ont été synthétisés. La polymérisation anionique par ouverture de cycle de ceux-ci a été étudiée en utilisant soit le thiophénolate de sodium soit le système thiophénol / ButP4 comme amorceur. Ces travaux ont également permis l'obtention d'un nouveau type de poly(éther-ester) qui s'est révélé intéressant comme perméabilisant membranaire. Les interactions des oligo(éther-ester)s avec des membranes modèles planes, des vésicules unilamellaires et des cellules ont été étudiées en collaboration avec des physiciens et des biologistes. Des résultats prometteurs en termes de transport d'ions ont été obtenus et sont présentés dans ce mémoire / The tetrameric phosphazene base ButP4 in association with thiophenol or bis(2-mercaptoethyl) ether has been successfully used in order to initiate the anionic ring-opening polymerization of di-n-alkyl cyclopropane-1,1-dicarboxylates. Well-defined monofunctional or difunctional polymers with a very narrow molecular weight distribution were obtained through a living process at temperatures between 30 and 60°C in THF or between 30 and 100°C in toluene. An excellent agreement is observed between theoretical and experimental Mn values (measured by SEC and by NMR). Other initiating systems such as carbazole or compounds with an acidic proton in association with ButP4 lead also to welldefined polymers. A kinetic study shows a first order with respect to the monomer concentration over the entire conversion range. The initiating system thiophenol / ButP4 in THF shows a much higher reactivity compared to the alkali metal thiophenolate which is the classical one. The living ends were reacted with different terminating agents such as hydrochloric acid, allyl and propargyl bromide thus leading to telechelic polymers. Other cyclopropane derivatives with various substituents have been also examined. These results open very exciting perspectives for the preparation of new architectures such as block and graft copolymers, star polymers. The first copolymer attempts were very successful. With the aim of designing new ion channel biomimics, cyclopropane-1,1-dicarboxylate monomers with crown-ethers substituents were synthesized. The anionic ring-opening polymerization of these monomers has been investigated using either sodium thiophenolate or thiophenol activated by ButP4. Moreover a new alternating poly(ether-ester) was obtained which is an interesting membrane permeabilizer. Its interaction with unilamellar vesicles, planar phospholipidic membranes and cells was studied in collaboration with biophysicists and biologists. Very promising results have been obtained

Polymérisation anionique

Polymérisation par ouverture de cycle

Cyclopropane-1,1-dicarboxylates

Base phosphazène

Canaux ioniques

Éthers-couronne

Anionic polymerization

Ring-opening polymerization

Cyclopropane-1,1-dicarboxylate

Phosphazene base

Anion channel

Crown-ether

La science dans l’œuvre d'Ernest Hello, source d’une poétique symbolique : anéantissement et correspondance.

Dina, Cosmin

04 1900

No description available.

Ernest Hello

épistémocritique

symbolisme

anéantissement mystique

correspondance

éther

mathématiques infinitésimales

science

technique

catholicisme

philosophie

théologie

crise du XIX siècle

Symbolism

Mystical Annihilation

Correspondence

Ether

Infinitesimal Calculus

Technology

Catholicism

Philosophy

Theology

19th Century Crisis

Cálculos usando métodos de estrutura eletrônica na obtenção de parâmetros cinéticos e termoquímicos / Calculations using electronic structure methods to obtain kinetic and thermochemical parameters

Souza, Luiz Augusto Gesteira de

06 June 2003

Cálculos usando métodos de estrutura eletrônica (Hartree-Fock, Mõller-Plesset de segunda ordem e DFT, B3LYP) foram efetuados pelo programa Gaussian98 em microcomputadores e estações de trabalho, com o objetivo de elucidar os canais de decomposição unimolecular de éter dietílico em fase gasosa e foram comparados com valores obtidos através de aproximações baseadas na mecânica estatística pela metodologia de Benson. O éter dietílico vem sendo usado como um aditivo para o óleo diesel e combustível alternativo e o conhecimento de suas vias vias de decomposição é fundamental nestas investigações. Dezesseis modos primários, do qual, quatro ocorrem através de cisão de ligações simples C-O, C-C,C(1)-H e C(2)-H e doze ocorrendo através de estados de transição cíclicos, os quais eliminam produtos como hidrogênio etano, acetaldeído, etano, álcool etílico, metil etil éter, metano, alguns carbenos e também di-radicais, foram considerados para a determinação das barreiras de ativação, entalpias de reação, entropias de reação e energia livre de Gibbs de reação. Vias primárias ocorrendo através de cisão de ligação, não reproduziram os valores experimentais para as barreiras de ativação, mas reproduziram de modo significante, valores da entalpia da reação. Eliminação de eteno e álcool etílico, ocorrendo através de um estado de transição de quatro centros, apresentou a barreira de ativação mais baixa. Acetaldeído e eliminação de etano, ocorrendo através de quatro centros, apresentou barreira significativamente alta, mas por outro lado, a menor entalpia, ligeiramente exotérmica por -0,8 kcal.mol-1. Eliminações 1,2 de metano e carbeno ocorrendo através de três centros, junto com a eliminação 1, 1 de hidrogênio e carbeno por três centros, eliminação 2,2 hidrogênio e carbeno por três centros e eliminação 1,4 de hidrogênio, acetaldeído e eteno por seis centros, apresentaram barreiras de ativação relativamente próximas mostrando que elas são competitivas entre si. Os valores computados dos canais que ocorrem por estados de transição cíclicos foram comparados com os resultados experimentais disponíveis e discutida a validade desta abordagem computacional para o estudo de reações unimoleculares de multi-canais. Determinação de parâmetros termoquímicos, como calor de formação para espécies radicalares dos canais de decomposição primário e alguns radicais alcóxidos, junto com a estimativa de afinidade eletrônica e protônica (com a abordagem ab initio Gaussian 2 a qual estima energias eletrônicas muito precisas) foram efetuados e seus resultados foram comparados com os valores experimentais disponíveis e valores obtidos através de energias de ligação e da regra de aditividade de Benson. / Calculations using methods of electronic structure(Hartree-Fock, second order Moller-Plesset and DFT: B3LYP) had been effected through the Gaussian98 program in microcomputers and workstations, with the objective to elucidate the unimolecular decomposition channels of diethyl ether in gaseous phase. These results also had been compared to those obtained by the methodology based in statistical mechanics through Benson\'s approach. Sixteen primary ways, which, four occur through the break of simple bonds C-O, C-C,C(1)-H, C(2)-H, and twelve occur through cyclical transistion states, which eliminate products as hydrogen, ethene, acetaldehyde, ethane, ethyl alcohol, methyl ethyl ether, methane, some carbenes and also diradicals. These products had been considered to the determination of the activation barriers, enthalpies of reaction, entropies of reaction and free energy of Gibbs of reaction. Primary ways occurring through the break of bonds, had not reproduced experimental values for the activation barriers, however they had reproduced in a significant way, values of the enthalpy of the reaction. Elimination of ethene and ethyl alcohol, occurring by a transition state of four centers, presented the lowest activation barrier. Acetaldehyde and ethane elimination occurring through four centers, presented a high significantly barrier, but on the other hand it presented the smallest enthalpy, lightly exothermic above -0,8 kcal.mol-1. Eliminations 1,2 of methane and carbene occurring through three centers, together with the elimination 1,1 of hydrogen and carbene through three centers, elimination 2,2 of hydrogen and carbene through three centers and elimination 1,4 of hydrogen, acetaldehyde and ethene through six centers, had presented relatively next activation barriers, showing that they are competitive among themselves. The computed values of the channels that occur through cyclical transition states had been compared with the available experimental results and the trustworthiness of this computational boarding for the study of unimolecular reactions in multi-channel had been dicussed. Determination of thermochemical parameters, as heat of formation for radicalar species of the primary channel of decomposition and some alcoxyde radicais, together with the estimative of the electronic and protonic affinities,( with the ab initio Gaussian 2 boarding which estimate very precise eletronic energies ) and their results had been compared with the available experimental values and with values gotten through energies of bond and Benson\'s additivity rule.

Cálculos RRKM

Cálculos teóricos

Chemical kinetics

Chemical Reaction (Study)

Cinética química

Diethyl ether

Estado de transição

Éter dietílico

Gaussian98

Gaussian98

Reações químicas (Estudo)

Reações unimoleculares

RRKM calculations

Termoquímica

Theoretical calculations

Thermo chemistry

Transition state

Unimolecular reactions

Síntese e caracterização de macromoléculas do tipo Poli(Ácido carboxílico)-Poli(Eter-poliol) com propriedades termoplásticas e termorrígidas e avaliação de propriedades mecânicas cerâmicos à base de caulim. / Synthesis and characterization of macromolecules of the type of poly (carboxylic acid)-poly(ether polyol) with thermoplastic and thermoset properties and evaluation of mechanical properties of ceramics materials based on kaolin.

Rodrigues, José Carlos

27 August 2009

Este trabalho apresenta o estudo de um sistema polimérico bi-componente formado por Poli(Ácido carboxílico)-Poli(Eter-poliol), constituído primariamente de um polímero acrílico polimerizado pelo processo de polimerização em solução aquosa por mecanismo de radicais livres ao qual foi adicionado seqüencialmente, um Poli(Eter-poliol), ambos de baixo peso molecular médio. Tal sistema tem por finalidade atuar como dispersante-ligante em sistema cerâmico à base de caulim CADAM, uma vez que este sistema apresenta propriedades termoplásticas e termorrígidas a diferentes temperaturas. Foram sintetizados 03 protótipos de um sistema polimérico e o critério para escolha teve como base o pH do sistema em sentido generalizado, isto é, compreendendo as diversas fases de preparação dos polímeros e sua aplicação final. É do conhecimento comum que a reação de esterificação entre grupos COOHOH requer catálise ácida para ocorrer, o qual usualmente é realizada em pH abaixo de 4 e, neste ensaio, este pH ácido é devido à presença de ácido para-toluenosulfônico, que atua como catalisador de esterificação. Em tal intervalo de pH, em virtude do ponto isoelétrico do caulim ser comumentemente abaixo de 4, a estabilização da dispersão de caulim por repulsão eletrostática utilizando polímeros sintéticos é improvável de ocorrer, razão pela qual buscou-se mecanismos alternativos para obtenção de uma tal estabilização, entre os quais o mecanismo estérico surge como opção. O sistema polimérico do presente estudo apresenta-se na forma de uma solução aquosa sendo, de fato, uma mistura homogênea de um copolímero de ácido acrílico, N- metiloacrilamida e metacrilato de metoxipolietileno glicol e um poli(eter-poliol). O poli(eter-poliol) e N-metilolacrilamida presentes no sistema polimérico são principais fontes de grupo hidroxila para reação de poliesterificação e formação de ligações cruzadas à temperatura de 150 a 200 °C. No estado termoplástico o sistema polimérico produzido pela mistura poli(ácido carboxílico)-poli(eter-poliol) pode ser utilizado como dispersante de argilas com especial fóco sobre caulim como tratado neste trabalho. A propriedade dispersante pode ser atribuida à presença de grupos carboxílicos e metoxipolietilenoglicol aleatoriamente distribuídos ao longo da cadeia polimérica e, também, ao baixo peso molecular médio. A temperaturas entre 150 a 200 °C, o polímero é reticulado (crosslinked) por reação de poliesterificação, catalisada por ácido, entre grupos carboxila e grupos hidroxila, sendo as hidroxilas provenientes tanto de poliol como de N-metilolacrilamida (NMAM). Assim, do ponto de vista térmico comporta-se como termorrígido, sendo nesta condição insolúvel em água e adequado atuar como ligante na manufatura de materiais cerâmicos. Medidas de mobilidade eletroforética e viscosidade são aplicadas à caracterização de caulim e do sistema polimérico a fim de avaliar a potencialidade de aplicação como dispersante desta argila. Também, as transições dos estados termoplásticos para termorrigidos foram determinadas por análise termogravimétrica (TG) e análise dinâmico mecânica (DMA) nos polímeros isoladamente e depois com medidas de resistência mecânica do sistema caulim/polímero. O sistema apresentou comportamento dispersante em água e ligante após cura. Um sistema polimérico assim sintetizado foi propriamente curado por calor tornando- se, na forma termorrígida, um ligante para peças cerâmicas com propriedades mecânicas de alto desempenho, como resistência a flexão no estado cru (green strenght). / This work presents the study of a polymeric bi-component system made from Poly(carboxylic acid)-Poly(ether-polyol) primarily constituted of an acrylic acid polymerized through the process of aqueous solution polymerization by free radical mechanism, to which a poly(ether-polyol) has been sequentially added, both of them of low average molecular weight. Such a system has the aim to act as dispersing-binding balance on CADAM kaolin targeting to evaluate the applicability potential or the preparation of ceramic bodies as this polymeric system presents thermoplastic and thermosetting properties at different temperatures. Were made the synthesis of 03 polymeric system prototypes which criteria for choice was based on pH of the system at whole sense, that is, regarding the several steps for polymers preparation and its final application. It is knowledge that esterification reaction between COOH-OH groups requires acid catalyst to occur, which usually is done at pH below 4 and, in this work this pH is due to p-toluene sulfonic acid that act as esterification catalyst. In this range of pH, due to the isoeletric point of kaolin to be below 4 the electrostatic stabilization of dispersion is unlikely to occur, from which reason was looked for an alternative mechanism to achieve the dispersion stabilization, among them the steric mechanism arises an option. The polymeric system of this study is the form of an aqueous solution, which actually is a homogeneous blend of a copolymer of acrylic acid, N-Methylolacrylamide Methoxypolyethyleneglycol Methacrylate (MPEGMA) and Poly(ether-polyol). The Poly(etherpolyol) and the N-Methylolacrylamide presents at the polymeric system are the main sources of hydroxyl groups to enhance the polyesterification reaction for further crosslinking at temperatures from 160 to 200 °C. At the thermoplastic state the polymeric system made by Poly(carboxilic acid)poly(ether-polyol) macromolecules may be used as clay dispersant focusing on kaolin for this work. The dispersant property may be attributed to the carboxylic and methoxypolyethyleneglycol group randomly distributed along the polymeric chain backbone and, also to the low average molecular weight. At temperatures between 150 to 200 °C, the polymer is crosslinked by polyesterification reaction catalized by acid between carboxyl groups and hydroxyl groups, in such way that hydroxyls groups comes both from the polyol base polymer and NMethylolacrylamide (NMAM) present at first polymer backbone. Thus, through a thermal standpoint it behaves as thermoset being that, under this condition, water insoluble and adequate to act as binder for manufacturing of ceramic materials. Electrophoretic mobility and viscosity measurements were applied for the characterization of kaolin and the polymeric system targeting to the evaluation its potential application as a dispersant for this clay. Also, the transitions from the thermoplastic to the thermoset state have been determined by thermo-gravimetric analysis (TG) and dynamicmechanical analysis (DMA) for the Poly(carboxylc acid)poly(ether-polyol) polymers alone and further by mechanical resistance measurements for a clay-polymer system. The system has presented both dispersant behavior on aqueous media and binder just afterward cure. A polymeric system thus synthesized was properly cured by heat turning and then, at the thermoset state, become suitable for act as a binder for ceramic bodies with high performance mechanical properties measured as flexural resistance at green strength.

Dynamic mechanical analysis

Eletrophoretic mobility

Estado cru

Green state

Kaolin

Macromoléculas

Macromolecules

Poly(carboxylic acid)-poly(ether polyol)

Termoplástico

Termorrígido

Thermogravimetic Analysis (TGA)

Thermoplastic

Thermoset

Eletrodo íon-seletivo de pasta de carbono para determinação de cobre baseado em um novo Lariat-éter coroa

CAMPOS, Rômulo Augusto Lins de

16 March 2011

Submitted by (lucia.rodrigues@ufrpe.br) on 2017-02-16T13:10:45Z No. of bitstreams: 1 Romulo Augusto Lins de Campos.pdf: 5930168 bytes, checksum: 7553330ff526456aa81970434c7c3475 (MD5) / Made available in DSpace on 2017-02-16T13:10:45Z (GMT). No. of bitstreams: 1 Romulo Augusto Lins de Campos.pdf: 5930168 bytes, checksum: 7553330ff526456aa81970434c7c3475 (MD5) Previous issue date: 2011-03-16 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES / Potentiometric sensors are known for their high sensitivity and selectivity. Such sensors have versatility, low cost and robustness, which ensures their applicability in a wide variety of complex chemical samples. The ion-selective electrodes for polymeric membrane are the best known potentiometric sensors, has by these traits. However, modified carbon paste electrodes have gained prominence due a great advance in their studies. This paper proposes an electrode chemically modified carbon paste for potentiometric determination of copper (II), using a new ionophore lariat-crown ether synthesized from precursor aminopropyl triethoxysilane is a silylating agent known in the literature. Studies were conducted to evaluate the influence of pH on the potential, the best buffer as supporting electrolyte, and the experimental design of mixtures to obtain the best composition of EQMPC. The proposed electrode showed a sensitivity of 38.5 mV/decade of activity with a detection limit of 2.04 x 10-5 mol L-1, and as a supporting electrolyte buffer biftalate/HCl pH = 3.0 proving to be promising for application in the determination of Cu(II). The electrode showed no significant analytical sensitivity to Co(II), Ni(II) and Zn(II) being these their main interferences. / Sensores potenciométricos são conhecidos por sua alta sensibilidade e seletividade. Tais sensores apresentam versatilidade, baixo custo e robustez, o que garante a esses sensores aplicabilidade em uma grande variedade de amostras químicas complexas. Os eletrodos íon-seletivos de membrana polimérica são os sensores potenciométricos mais conhecidos, por possuirem essas características. Contudo, os eletrodos modificados de pasta de carbono têm ganhado forte destaque devido ao avanço em seus estudos. Neste trabalho é proposto um eletrodo quimicamente modificado de pasta de carbono para determinação potenciométrica de cobre (II), utilizando um novo ionóforo lariat-éter coroa sintetizado a partir de precursor aminopropil trietoxisilano que é um agente sililante conhecido na literatura. Foram realizados estudos para avaliar a influência do pH sobre o potencial, o melhor tampão como eletrólito de suporte, além do planejamento experimental de misturas para se obter a melhor composição do EQMPC. O eletrodo proposto apresentou uma sensibilidade de 38,5mV/década de atividade com limite de detecção de 2,04 x 10-5 mol L-1, tendo como eletrólito de suporte um solução-tampão biftalato/HCl pH = 3,0 demonstrando ser promissor para aplicação na determinação de íons Cu(II). O eletrodo não apresentou sensibilidade analítica significativa aos íons Co(II), Ni(II) e Zn(II) sendo esses seus principais interferentes.

Eletrodo íon-seletivo

Agentes sililantes

Eletrodo de pasta de carbono

Cobre

Potenciometria

Lariat-éter cora

Potentiometry

Lariat-ether

Crown

Copper (II)

Silylating agent

Química

CIENCIAS EXATAS E DA TERRA::QUIMICA