Global ETD Search

71	Thiol−ene Coupling of Renewable Monomers : at the forefront of bio-based polymeric materials Claudino, Mauro January 2011 (has links) Plant derived oils bear intrinsic double-bond functionality that can be utilized directly for the thiol–ene reaction. Although terminal unsaturations are far more reactive than internal ones, studies on the reversible addition of thiyl radicals to 1,2-disubstituted alkenes show that this is an important reaction. To investigate the thiol–ene coupling reaction involving these enes, stoichiometric mixtures of a trifunctional propionate thiol with monounsaturated fatty acid methyl esters (methyl oleate or methyl elaidate) supplemented with 2.0 wt.% Irgacure 184 were subjected to 365-nm UV-irradiation and the chemical changes monitored. Continuous (RT– FTIR) and discontinuous (NMR and FT–Raman) techniques were used to follow the progress of the reaction and reveal details of the products formed. Experimental results supported by numerical kinetic simulations of the system confirm the reaction mechanism showing a very fast cis/trans-isomerization of the alkene monomers (<1.0 min) when compared to the total disappearance of double-bonds, indicating that the rate-limiting step controlling the overall reaction is the hydrogen transfer from the thiol involved in the formation of final product. The loss of total unsaturations equals thiol consumption throughout the entire reaction; although product formation is strongly favoured directly from the trans-ene. This indicates that initial cis/trans-isomer structures affect the kinetics. High thiol–ene conversions could be easily obtained at reasonable rates without major influence of side-reactions demonstrating the suitability of this reaction for network forming purposes from 1,2-disubstituted alkenes. To further illustrate the validity of this concept in the formation of cross-linked thiol–ene films a series of globalide/caprolactone based copolyesters differing in degree of unsaturations along the backbone were photopolymerized in the melt with the same trithiol giving amorphous elastomeric materials with different thermal and viscoelastic properties. High thiol–ene conversions (>80%) were easily attained for all cases at reasonable reaction rates, while maintaining the cure behaviour and independent of functionality. Parallel chain-growth ene homopolymerization was considered negligible when compared with the main coupling route. However, the comonomer feed ratio had impact on the thermoset properties with high ene-density copolymers giving networks with higher glass transition temperature values (Tg) and a narrower distribution of cross-links than films with lower ene composition. The thiol–ene systems evaluated in this study serve as model example for the sustainable use of naturally-occurring 1,2-disubstituted alkenes at making semi-synthetic polymeric materials in high conversions with a range of properties in an environment-friendly way. / Vegetabiliska oljor som innehåller dubbelbindningar kan användas direkt för thiolene reaktioner. Trots att terminala dubbelbindningar är mycket mer reaktiva än interna visar dessa studier att den reversibla additionen av thiyl radikaler till 1,2-disubstituerade alkener är en viktig reaktion. För att undersöka tiol–ene reaktionerna, som ivolverar dessa alkener förbereddes stökiometriska blandningar av en trifunktionell propionat tiol och enkelomättade fettsyrametylestrar (metyloleat eller metyl elaidat) samt 2.0 vikt.% Irgacure 184. Dessa blandningar utsattes för 365-nm UV strålning och de kemiska förändringarna studerades. De kemiska förändringarna analyserades med olika kemiska analysmetoder; realtid RT–FTIR, NMR och FT–Raman. Dessa användes för att analysera de kemiska reaktionerna i realtid och följa bildandet av produkterna. Reaktionsmekanismen bekräftades med hjälp av experimentella data och beräkningar av numeriska och kinetiska simuleringar för systemet. Resultaten visar en mycket snabb cis/trans-isomerisering av alkenmonomeren (<1.0 min) jämfört med den totala förbrukningen av dubbelbindningarna, vilket indikerar att det hastighetsbegränsande steget kontrolleras av väteförflyttningen från tiolen till slutprodukten. Förbrukningen av den totala omättade kolkedjan är lika med tiolförbrukningen under hela reaktionen, även om bildandet av produkten gynnas från trans-enen. Detta indikerar att den första cis/trans-isomerstrukturen påverkar kinetiken. Höga tiol-ene utbyten kan enkelt erhållas relativt snabbt utan inverkan av sidoreaktioner. Detta innebär att denna reaktion kan användas som nätverksbildande reaktion för flerfunktionella 1,2-disubstituted alkenmonomerer. Vidare användes fotopolymerisation i smälta på en serie globalid/kaprolaktonbaserade sampolyestrar med varierad grad av omättnad med samma tritiol vilket resulterade i bildandet av amorfa elastomeriska material med olika termiska och viskoelastiska egenskaper. Hög omsättning (>80%) uppnåddes relativt enkelt för samtliga blandningar oberoende av den initiala funktionaliteten. Homopolymerisation av alkenen var försumbar i jämförelse med den tiol–en-reaktionen. Mängden alkengrupper har inverkan på härdplastsegenskaperna där en hög andel alken ger en nätstruktur med högre glastransitionstemperatur (Tg). Tiol–ene reaktionen utvärderades i modellsystem baserade på naturlig förekommande 1,2-disubstituterade alkener för att demonstrera konceptet med tiol-förnätade halvsyntetiska material. / QC 20110915 Thiol-ene chemistry monounsaturated fatty-acids renewable resources cis/trans-isomerization photopolymerization networks polyesters thermal/viscoelastic properties thin-films unsaturated (macro)lactones coatings Polymer Chemistry Polymerkemi
72	Elaboration en phase fondue de matériaux polymères à activité biologique / In melt preparation of biologically active polymeric materials Belkhir, Kedafi 29 March 2017 (has links) L’objectif de cette thèse était d’allier, dans un même polymère, le contrôle de l’architecture macromoléculaire, la fonctionnalité et la possibilité de sa mise en oeuvre en phase fondue, tout en préservant l’aspect environnemental. Les structures polymères synthétisées sont basées sur des chaînes biodégradables et/ou biosourcées d’acide polylactic (PLA), de polyhydroxybutyrate (PHB) et de polycaprolactone (PCL). Ces dernières ont été assemblées dans des structures macromoléculaires branchées à design contrôlé et portant des fonctions thiols, ces fonctions ont permis le greffage de monomères dotés de groupements ammoniums quaternaires, sur les structures obtenues, via une addition radicalaire thiol-ène.Les produits obtenus ont été mélangés en phase fondue, par extrusion, avec des matrices de PLA et de PCL, pour préparer des films. Ces derniers ont fait l’objet d’une étude d’activité antibactérienne qui a montré une grande efficacité envers différents types de bactéries / The aim of this work was to develop polymers that combine controlled macromolecular architectures, functionality, melt processing and an environmentally friendly aspect. The obtained polymeric structures were based on biodegradable and/or biosourced chains of polylactic acid (PLA), polycaprolactone (PCL) and polyhydroxybutyrate (PHB). The lasts were assembled in branched macromolecular structures with controlled design and bearing thiol functions, these functions allowed the grafting of quaternary ammoniumcontaining monomers on the branched structures according to a thiol-ene radical addition mechanism. The final products were blended with neat matrices of PLA and PCL in the melt state, by extrusion process, to make polymeric films. The obtained film-shaped blends were subjected to antibacterial activity study showing there high efficiency against different types of bacteria PLA PCL PHB Architecture macromoléculaire Thiol-ène Polymères fonctionnels Polymères antibactériens PLA PCL PHB Macromolecular design Thiol-ene Functional polymers Antibacterial polymers
73	Role of Ionic Liquid in Electroactive Polymer Electrolyte Membrane for Energy Harvesting and Storage Chen, PoYun 15 July 2020 (has links) No description available. Engineering Energy Polymer Chemistry Polymers solid polymer electrolyte phase diagram, ionic conductivity electrochemical stability ionic liquid thermal stability
74	FACILE AND FAST FABRICATION OF FUNCTIONAL THIN FILMS VIA POLYELECTROLYTE LAYER-BY-LAYER ASSEMBLY Cho, Szu-Hao 26 August 2020 (has links) No description available. Materials Science Polymers polyelectrolyte layer-by-layer assembly self-healing thiol-ene click chemistry slippery liquid-infused porous surfaces patterned slippery surfaces
75	Thiol-ene and Thiol-ene-epoxy Based Polymers for Biomedical Microdevices Vastesson, Alexander January 2017 (has links) Within healthcare there is a market pull for biomedical devices that can rapidly perform laboratory processes, such as diagnostic testing, in a hand-held format. For this reason, biomedical devices must become smaller, more sophisticated, and easier to use for a reasonable cost. However, despite the accelerating academic research on biomedical microdevices, and especially plastic-based microfluidic chips, there is still a gap between the inventions in academia and their benefit to society. To bridge this gap there is a need for new materials which both exhibit similar properties as industrial thermoplastics, and that enable rapid prototyping in academia. In this thesis, thiol-ene and thiol-ene-epoxy thermosets are evaluated both in terms of their suitability for rapid prototyping of biomedical microdevices and their potential for industrial manufacturing of “lab-on-chips”. The first part of the thesis focuses on material development of thiol-ene and thiol-ene-epoxy thermosets. Chemical and mechanical properties are studied, as well as in vitro biocompatibility with cells. The second part of the thesis focuses on microfabrication methods for both thermosets. This includes reaction injection molding, photostructuring, and surface modification. It is demonstrated how thiol-ene and thiol-ene-epoxy both provide advantageous thermo-mechanical properties and versatile surface modifications via “thiol-click chemistry”. In the end of the thesis, two applications for both polymer platforms are demonstrated. Firstly, thiol-ene is used for constructing nanoliter well arrays for liquid storage and on-demand electrochemical release. Secondly, thiol-ene-epoxy is used to enhance the biocompatibility of neural probes by tuning their flexibility. It is concluded that both thiol-ene and thiol-ene-epoxy thermosets exhibit several properties that are highly suitable for rapid prototyping as well as for scalable manufacturing of biomedical microdevices. / <p>QC 20171003</p> biomedical microdevices lab-on-a-chip off-stoichiometry thiol-ene OSTE thiol-ene-epoxy hybrid polymer networks reaction injection molding photostructuring surface modification bonding liquid encapsulation biocompatibility Elektroteknik och elektronik Medical Engineering Medicinteknik Medical Biotechnology Medicinsk bioteknologi Materials Engineering Materialteknik
76	Bottlenecks in the Freight Forwarding sector in West - coast Africa Abdallaoui Berrada, Chakir, Ciro, aida January 2009 (has links) <p>Problem – The expansion of global trade and supply chain integration has put great emphasison logistics, particularly in the intermediary sector, freight forwarders. Whilst in developedcountries freight forwarders benefit from competitive markets and trade facilitatingpolicies, this sector in West coast Africa exhibits low logistics performance levels. Inorder to address such issues, one needs to analyse the problem and identify the causes; thisthesis focuses on identifying the bottlenecks in the freight-forwarding sector in west coastAfrica.Purpose – The main purpose of this study is to identify the bottleneck/s within thefreight-forwarding industry in west coast Africa, namely: Angola, Cameroon, DR of Congo,Gabon, and Nigeria.Method – This thesis employs a pre-study and case study method, to ensure sufficient collectionof relevant material, taking into account the lack of research in this subject. We usedthe material obtained from the interviews and the secondary source, to structure our purpose,research questions, and to define the case of our study.Results – The study concludes with a series of interesting findings; First, the activity of aFreight Forwarder depends on a series of factors that do not depend on the Freight Forwarderper se. And second, Freight Forwarders in order to accomplish their tasks, have accessto services that are shared by all providers, and that are beyond their control. To conclude,the study identifies infrastructure as a major bottleneck in the Freight Forwarding sector.</p> Business and economics Ekonomi Business studies Företagsekonomi
77	Développement de nouveaux organocatalyseurs pour la synthèse de polyuréthanes / Development of new organocatalysts for the synthesis of polyurethanes Alsarraf, Jérôme 03 December 2012 (has links) Depuis leur découverte dans les années 1930, les polyuréthanes (PU) ont connu un essor important et représentent aujourd’hui un marché supérieur à 10 millions de tonnes par an. Ces matériaux sont préparés par réaction de polyaddition d'un polyol sur un polyisocyanate en présence d’un catalyseur. Des complexes organométalliques, notamment à base d’étain, sont communément employés pour accélérer cette réaction. Cependant, leur toxicité et leur nocivité envers l’environnement vont prochainement conduire à leur interdiction. Dans le cadre d’un projet pluridisciplinaire, nos efforts se sont concentrés sur le développement de catalyseurs potentiellement plus respectueux de l’environnement. Nous avons tout d’abord réalisé un criblage d’organocatalyseurs pour la synthèse de carbamates. Cette étude préliminaire a mis en évidence l’efficacité des guanidines bicycliques telles que le 7-méthyl-1,5,7-triazabicyclo[4,4,0]déc-5-ène (MTBD). De nouveaux analogues du MTBD ont été préparés et utilisés comme catalyseurs pour la synthèse de PU. Une étude mécanistique a également été conduite. Elle a permis d’expliquer les comportements catalytiques contrastés d’espèces chimiques pourtant très proches, à l’image du MTBD, du TBD, du DBU et du DBN. Ces travaux ont notamment mis en évidence la nucléophilie du MTBD qui réagit avec deux équivalents d’isocyanate pour former des composés tricycliques originaux. Ces nouveaux hétérocycles présentent des propriétés attrayantes de catalyseurs à effet retard thermo-activables pour la synthèse de PU. / Polyurethanes (PU) constitute an important market, estimated around 10 wt% of the current synthetic polymer production. They are usually prepared by the most straightforward route involving the addition of polyols to polyisocyanates in the presence of a catalyst. Tin based organometallic complexes are the most active catalysts currently in use, but environmental concerns should lead in not too distant a future to a ban of these reagents. In the context of a multidisciplinary project, we focused our efforts on the design of environmentally more acceptable organocatalysts that could advantageously replace metal-based catalysts. A screening of organocatalysts was therefore carried out, from which bicyclic guanidines such as 7-methyl-1,5,7-triazabicyclo[4,4,0]dec-5-ene (MTBD) emerged as the most efficient. New analogues of MTBD were prepared and successfully used as catalysts for the synthesis of PU. Mechanistic studies were also performed. The catalytic behaviour of structurally similar compound such as MTBD, TBD, DBU or DBN was rationalised. The nucleophilic reaction between MTBD and isocyanates was highlighted and original compounds in which two equivalents of isocyanate are incorporated onto the guanidine scaffold were isolated. These novel heterocycles exhibit appealing thermally-triggered delayed-action catalytic properties for the synthesis of PU. Organocatalyse Guanidine Polyurethane (PU) Polyaddition Catalyseur latent Organocatalysis Guanidine Polyurethane (PU) Polyaddition Delayed-action catalysis
78	Réactions de carboalcénylation d'ène-carbamates et d'énamides : recherche de nouveaux processus radicalaires sans étain / Radical carbo-alkenylation reactions of ene-carbamates and enamides : research of new tin-free radical processes Poittevin, Clément 19 December 2014 (has links) Les réactions multicomposants radicalaires sont d’une grande efficacité synthétique et s’avèrent en phase avec les principes de la chimie dite "verte". Ce manuscrit s’articule autour de trois axes : l’étude de la réaction de carbo-alcénylation radicalaire d’oléfines azotées riches en électrons, la valorisation des structures obtenues en se dirigeant vers la synthèse de molécules cycliques ou polycycliques complexes, et pour finir la mise au point de nouveaux médiateurs radicalaires sans étain. Dans un premiers temps, sur la base de travaux antérieurs de notre laboratoire, la réaction de carbo-alcénylation radicalaire a été étendue avec succès à l’utilisation d’énamides et d’ène-carbamates. Cette étude a permis de montrer la forte réactivité de ces oléfines vis-à-vis de radicaux électrophiles ainsi que l’importante force motrice que constitue la formation du radical amidoyle intermédiaire.Parmi tous les énamides et ène-carbamates testés, seules les structures cycliques ont permis d’obtenir une excellente diastéréosélectivité en faveur des produits trans. Dans un second temps, une valorisation des structures obtenues lors de la réaction de carbo-alcénylation a été réalisée par la mise au point de processus de cyclisations radicalaires et ioniques. Des cyclisations par activation via des énamines ont permis d’obtenir diastéréosélectivement des squelettes aza-décalones, présents notamment dans les alcaloïdes de la famille des lycopodiums. Un processus de double cyclisations de type 5-exo-trig/6-exo-trig, totalement diastéréosélectif, a également été établi donnant accès à des composés tri- et tétracycliques diversement substitués présents dans d’autres types d’alcaloïdes.Enfin, le développement de nouveaux médiateurs radicalaires silylés non réducteurs, comme substituts aux diétains, a été réalisé. L’intérêt s’est porté sur divers disilanes, thiosilanes, borosilanes et borothiosilanes, précurseurs de radicaux silyles permettant de promouvoir la propagation de chaînes radicalaires. Ces médiateurs ont été testés dans des réactions de vinylation directes de bromures d’alkyle ou dans des processus de carbo-alcénylation à trois composants. Dans le cas des thiosilanes et borosilanes des résultats encourageants et prometteurs ont été obtenus. / Multicomponent radical reactions have high synthetic efficiency and are in line with "green"chemistry concepts. This manuscript focuses on three topics: the study of the radical carboalkenylation reactions on electrons-rich olefins, the further elaboration of the structures directed towards the synthesis of complex cyclic or polycyclic molecules, and finally the development of newtin-free radical mediators.In the first part, based on previous work from our laboratory, the radical carbo-alkenylation reaction was successfully extended to enamides and ene-carbamates. This study demonstrated the high reactivity of these olefins towards electrophilic radical species and also the major driving force which constitutes the formation of the intermediate amidoyl radical. Amongst all enamides and enecarbamates tested, only the cyclic compounds led to a good diastereocontrol in the favor of transproducts.In a second part, the structures obtained in the carbo-alkenylation reaction were further elaborated through the development of radical and ionic cyclization processes. Activation via enamines allowed the diastereoselective formation of aza-decalin backbones, presents in the lycopodium alkaloid family. A totally diastereoselective double 5-exo-trig/6-exo-trig cyclization process was also achieved,generating various substituted tri- and tetracyclic compounds present in other classes of alkaloids. Finally, the development of new non-reductive free-radical silylated mediators as ditin surrogates was achieved. The research focused on various disilanes, thiosilanes, borosilanes and borothiosilanes,precursors of silyl radicals sustaining the radical chain. These mediators were tested in directvinylation reactions of alkyl bromides or in three components carbo-alkenylation processes. Forthiosilanes and borosilanes encouraging and promising results were obtained. Réactions multicomposants radicalaires Carbo-alcénylation Énamides Ène-carbamates Hétérocycles Chimie radicalaire sans étain Radicaux silylés Bore Multicomponent radical reactions Carbo-alkenylation Enamides Ene-carbamates Tin-free radical chemistry Silyl radicals Boron
79	Valorisation des xylanes du bois : vers la synthèse de copolymères amphiphiles bio-sourcés / Wood xylans value-creation : towards the synthesis of amphiphilic bio-based copolymers Chemin, Maud 19 December 2014 (has links) La thèse présentée propose une nouvelle voie de valorisation des xylanes du bois par l’élaboration de nouveaux polymères bio-sourcés et amphiphiles.Après une caractérisation complète de xylanes issus du bois de hêtre, l’hydrolyse acide en milieu dilué a été optimisée afin d’obtenir des xylo-oligosaccharides d’environ 6 unités xylose par chaîne avec une seule unité acide méthylglucuronique positionnée à l’extrémité non réductrice de la chaîne. En parallèle, l’étude de l’oxydation au periodate de sodium de ces xylanes a été effectuée pour permettre l’introduction d’un nombre contrôlé de fonctions aldéhyde le long de la chaîne. La fonction aldéhyde de l’extrémité réductrice des oligomères de xylane a ensuite été fonctionnalisée par un groupement allyle ou azoture pour permettre leur couplage à des dérivés d’acide gras par ‘chimie click’.Les oligomères amphiphiles ainsi obtenus ont ensuite été étudiés pour leurs propriétés tensioactives et d’auto-assemblage. Ils présentent de bonnes propriétés de mouillage, comparables à celles du Tween®80. Les objets issus de l’auto-assemblage de ces oligomères amphiphiles ont été analysés par DLS et TEM. Ils s’auto-assemblent aussi bien dans le chloroforme que dans l’eau. Les objets formés sont sphériques et de taille micellaire (d ≤ 50 nm). Ces objets ont tendance à s’associer pour former des agrégats, surtout dans le chloroforme. Ces agrégats sont régis par des interactions assez faibles pour être éliminés par dilution. Ils peuvent également être éliminés par simple filtration.Finalement, ce travail de thèse aura abouti à la synthèse de composés amphiphiles totalement bio-sourcés, à partir de xylanes, coproduits potentiels de l’industrie papetière. Grâce à leurs propriétés tensioactives, les applications envisageables pour ces tensioactifs ‘verts’ sont nombreuses. De plus, leur caractère biocompatible et leur auto-assemblage en solution aqueuse en font de bons candidats pour l’encapsulation et la vectorisation de principes actifs. / This thesis work aims to add value to xylans by designing new bio-based amphiphilic polymers.Beechwood xylans were first fully characterized before their acidic hydrolysis. The hydrolysis conditions were optimized in order to obtain well-defined xylooligosaccharides, oligomeric chains of about six xylose units that have only one methylglucuronic acid unit positioned at the non-reductive chain end. Periodate oxidation of xylans was also studied in order to form new aldehyde groups within the xylan backbone in a controlled manner. The xylooligomers were then functionalized from their reductive end with an azide or an allyl group, providing the ability to couple these oligomers to fatty acid derivatives using ‘click chemistry’.The obtained amphiphilic oligomers were finally studied according to their surfactant and self-assembly properties. Their wetting properties were found to be very good, comparable to those found with Tween®80. Moreover, they self-assembled in both chloroform and water, where their structures were characterized via DLS and TEM. The resulting particles formed had a spherical micellar morphology, with a d ≤ 50 nm. However, it was found that the particles had a tendency to form large aggregates, particularly in chloroform. The aggregates could be easily removed, either by filtration or by dilution of the sample, as the forces that govern the aggregation are low enough to allow dissociation with increasing solvent volume.As previously mentioned, this thesis work led to the synthesis of bio-based amphiphilic oligomers starting from xylans, which are a potential byproduct in the paper/pulp industry. Thanks to their surfactant properties, numerous applications can be found for such a ‘green’ surfactant. Their biocompatibility added with their self-assembly nature in aqueous media makes them an attractive molecule for active substance delivery applications. Amination réductrice Amphiphile Bio-sourcé Chimie ‘click’ Polymères Dérivés d’acide gras Hémicelluloses Hydrolyse Thiol-ène Xylanes Amphiphilic Bio-based ‘click’ chemistry Polymers Fatty acid derivatives Hemicelluloses Hydrolysis Reductive amination Thiol-ene Xylans
80	Bottlenecks in the Freight Forwarding sector in West - coast Africa Abdallaoui Berrada, Chakir, Ciro, aida January 2009 (has links) Problem – The expansion of global trade and supply chain integration has put great emphasison logistics, particularly in the intermediary sector, freight forwarders. Whilst in developedcountries freight forwarders benefit from competitive markets and trade facilitatingpolicies, this sector in West coast Africa exhibits low logistics performance levels. Inorder to address such issues, one needs to analyse the problem and identify the causes; thisthesis focuses on identifying the bottlenecks in the freight-forwarding sector in west coastAfrica.Purpose – The main purpose of this study is to identify the bottleneck/s within thefreight-forwarding industry in west coast Africa, namely: Angola, Cameroon, DR of Congo,Gabon, and Nigeria.Method – This thesis employs a pre-study and case study method, to ensure sufficient collectionof relevant material, taking into account the lack of research in this subject. We usedthe material obtained from the interviews and the secondary source, to structure our purpose,research questions, and to define the case of our study.Results – The study concludes with a series of interesting findings; First, the activity of aFreight Forwarder depends on a series of factors that do not depend on the Freight Forwarderper se. And second, Freight Forwarders in order to accomplish their tasks, have accessto services that are shared by all providers, and that are beyond their control. To conclude,the study identifies infrastructure as a major bottleneck in the Freight Forwarding sector. Business and economics Ekonomi Business studies Företagsekonomi

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