Global ETD Search

11	Fonctionnalisation d'huiles végétales et de leurs dérivés pour la formulation de nouveaux revêtements polyuréthanes agro-ressourcés / Functionalisation of vegetable oils and their derivatives for new bio-based polyurethane coatings Desroches, Myriam 08 December 2011 (has links) Les huiles végétales et leurs dérivés ont conduit à de nouveaux précurseurs agro-ressourcés utilisés pour la synthèse de polymères. Grâce au couplage thiol-ène, des polyols ont été obtenus par greffage du mercaptoéthanol directement sur les triglycérides insaturés. De la même manière, les esters méthyliques des huiles végétales ont permis la synthèse d'esters et d'amides diols pseudo-téléchéliques. Des polyols ont également été obtenus grâce à la réaction d'ouverture des cycles oxirane présents sur des huiles végétales époxydées. Différents acides carboxyliques ont permis d'introduire des fonctions hydroxyle sur les triglycérides. Ces différents synthons ont conduit à l'élaboration d'une large gamme de matériaux polyuréthanes, présentant des Tg variant de -10 °C à 100 °C. Le carbonate de glycérol, issu du glycérol agro-ressourcé, a également été utilisé pour l'élaboration de dicyclocarbonates, soit par estérification/trans-estérification à partir de diacides obtenus par greffage de l'acide thioglycolique sur plusieurs acides gras, soit par dimérisation à partir d'un dithiol commercial. Des polyuréthanes sans isocyanate ont ainsi été formulés à partir de ces nouveaux dicyclocarbonates, ouvrant la voie vers des polyhydroxyuréthanes totalement agro-ressourcés. Les précurseurs, ainsi que les matériaux qui en découlent, ont été caractérisés et certains ont fait l'objet de tests à l'échelle pré-industrielle. / Vegetable oils and their derivatives were used to synthesize new precursors suitable for polymer synthesis. Mercaptoethanol was grafted onto unsaturated triglycerides by thiol-ene coupling to yield polyols. This functionalization was also applied to vegetable oil methyl esters, yielding ester and amide containing pseudo-telechelic diols. The second synthetic strategy used ring opening of epoxydized vegetable oils. The reaction between vegetable oil oxiranes and several carboxylic acids afforded a range of polyester polyols. Thus, the synthesized intermediates allowed to formulate various polyurethanes, which exhibited glass transition temperatures ranging from -10 °C to 100 °C. Moreover, either esterification/trans-esterification with fatty acid based diacids, synthesized by thioglycolic acid addition onto different fatty acids, or thiol-ene coupling with a commercial dithiol, were performed on glycerin carbonate, leading to new dicyclocarbonates. Isocyanate free polyurethanes were then obtained from those dicyclocarbonates, opening the way for fully biobased polyhydroxyurethanes. The new precursor, and the polymers therefrom, were deeply characterized and some of them were tested at a pilot scale. Huiles végétales Polyuréthanes Thiol-ène Agro-ressources Polyols Vegetable oils Polyurethanes Thiol-ene Renewable ressources Polyols
12	Les bambusurils : molécules-cages pour l'encapsulation d'anions et utilisation comme nouvelles plateformes multivalentes d'intérêt biologique / Bambusurils : Cage Molecules for Encapsulating Anions and their Uses as New Multivalent platforms of Biological Interest Azazna, Djamille 23 November 2017 (has links) Les bambusurils, BU[4] et BU[6], sont des oligomères cycliques apparentés aux cucurbiturils, CBs, constitués respectivement de 4 et 6 motifs glycolurils. Les bambusurils diffèrent des CBs par la présence de glycolurils difonctionnalisés.Les BU[6] ont la capacité d'encapsuler des anions dans leur cavité, propriété intéressante pour la décontamination d'effluents, par exemple.Une nouvelle famille de bambusurils, les allylbambusurils, qui possèdent des groupements allyles sur leur portail macrocyclique, a été développée. Leur post-fonctionnalisation par oxydation, métathèse croisée ou réaction thiol-ène a été étudiée. Par réaction thiol-ène, des BU[4] et BU[6], fonctionnalisés respectivement par 8 ou 12 thiols d'intérèt, ont été obtenus. Les BU[6] sont toujours isolés avec un halogènure à l’intérieur de leur cavité. Une méthode utilisant l’hexafluoroantimonate d’argent a été mise au point pour les décomplexer. L'affinité de ces nouveaux BU[6] exempts d'anion, pour différents halogénures, a été évaluée par RMN 1H.Des glycobambusurils ont été synthétisés par réaction thiol-ène en présence de sucres fonctionnalisés par des thiols. Ces glycoBUs donnent accès à des plateformes multivalentes de valence 8 pour les BU[4] et 12 pour les BU[6]. Le pouvoir inhibiteur de ces nouvelles plateformes a été testé sur l'enzyme WaaC, une heptosyltransferase présente dans la paroi bactérienne. Les tests enzymatiques montrent que ces glycobambusurils sont des plateformes multivalentes prometteuses. / Bambusurils, BU[4] and BU[6] are cyclic oligomers that belong to the cucurbiturils family, CBs, assembled respectively by 4 and 6 glycoluril units. Bambusurils are different from cucurbiturils because of their difunctionalized glycolurils. BU[6] are able to encapsulate anions inside their cavity and this property can be useful for the treatment of effluents.A new family of BUs, the allylbambusurils having allyls groups on their macrocyclic portal, has been developed. Their postfunctionalization by oxidation, cross metathesis and thiol-ene coupling has been studied. BU[4] and BU[6] functionalized by respectively 8 and 12 thiols of interest have been prepared.BU[6] are always obtained with an halide inside the cavity. A method using silver hexafluoroantimonate has been developed to remove this halide. Binding constants of these new empty bambusurils have been determined towards severals halide by 1H NMR.Glycobambusurils have been synthesized by thiol- ene coupling with thiosugars. These glycoBUs can lead to multivalent platforms of valency up to 8 for BU[4] and 12 for BU[6]. Inhibition activity of these new platforms has been tested on WaaC enzyme, an heptosyltransferase found in bacterial cell wall. Enzymatic tests show that these glycobambusurils are promising multivalent platforms. Bambusuril Anions Réaction thiol-ène Multivalence Plateformes Glycotransférases Bambusuril Anions Thiol-ene coupling Multivalency Platforms Glycotransferases
13	Terpenes as renewable monomers for biobased materials / Terpener som förnyelsebara monomerer för biobaserade material Norström, Emelie January 2011 (has links) With the ambition to decrease the utilization of fossil fuels, a development of those raw materials that today only are seen as waste products is necessary. One of those waste products is turpentine. Turpentine is the largest natural source of terpenes in the world today. The main components are the terpenes α-pinene, β-pinene and 3-carene. In this project, different polymerisation techniques have been evaluated to polymerise limonene with the aim to make a material out of the green raw material, turpentine. Limonene is a terpene that can be found in turpentine. It has a planar structure and should work as a model for other terpenes. Previous work on polymerising terpenes has focused on succeeding with performing polymerisations of terpenes utilizing the techniques of cationic polymerisation and radical polymerisation. However, this has been done without the aim to make a material out of the polymers. In this project, on the other hand, the main focus has been to obtain a polymer that can be used as a basis for a material. Techniques that have been applied are: radical polymerisation, cationic polymerisation and thiol-ene polymerisation. In this study, attempts to homopolymerise limonene and also copolymerise it with other synthetic monomers, such as styrene, have been performed with both radical polymerisation and cationic polymerisation. The procedure for the radical polymerisation has been conducted following the work by Sharma and Srivastava. [1] Even though several articles have been published about radical copolymerisations of limonene with other synthetic monomers, the radical polymerisations have not succeeded in this project. Further, the technique of thiol-ene chemistry has shown that limonene can be used in polymerisations; limonene reacts spontaneously with 2-mercaptoethyl ether forming a viscous polymer. The obtained polymers have been characterized with proton nuclear magnetic resonance(1H-NMR), size exclusion chromatography (SEC), matrix-assisted laser desorption ionization-time of flight mass spectroscopy (MALDI-TOF MS), differential scanning calorimetry (DSC), fourier transform infrared spectroscopy (FTIR) and Raman spectroscopy. Limonene Terpenes Radical polymerisation Cationic polymerisation Thiol-ene polymerisation Polymer Chemistry Polymerkemi
14	Uv and spontaneously cured polyethylene glycol-based hydrogels for soft and hard tissue scaffolds / Spontan och UV-härdande Poly(etylen glycol) baserade hydrogeter för mjuk- och hårda vävnads substrat Farbod, Kambiz January 2011 (has links) UV-curing is one of the most commonly used methods for producing hydrogels for soft and hard tissue scaffolds. Spontaneous curing is an alternative method which possesses some advantages in comparison to the conventional UV-curing methods; for example, in situ crosslinking and excluding initiators. The main objective of this study was to investigate promising materials for producing UV and spontaneously cured hydrogels, and subsequently to perform a comparison between the produced hydrogels with regard to their different mechanical and physical properties.Seventeen different hydrogels including five UV-cured and twelve spontaneously cured hydrogels were produced by applying thiol-ene chemistry and by varying precursor materials. Hydrogel systems including di- and tetra- functional PEGs of different lengths (2 kDa and 6 kDa) and two different thiol-crosslinkers (ETTMP 1300 Da and DTT) were subsequently characterized and evaluated. The evaluation tests applied in this study were Raman spectroscopy, weight and volumetric swelling test, leaching test, tensile test, and rheology test. Between all the systems, tetra-acrylated PEG (6 kDa) BisMPA was found to be the most promising system. The pH level of the applied solvent (PBS) for spontaneously cured hydrogels was varied from the physiologically relevant level of 7.4 to 7.0 and 7.8 in order to investigate the dependency of physical and mechanical properties of the hydrogels to this parameter.Spontaneous curing of tetra-acrylated PEG (6 kDa) BisMPA with ETTMP 1300 Da as the thiol-crosslinker, was accomplished within 3½ min in PBS with a pH level of 7.4; and it came out to be the fastest spontaneously cured system between all the tested hydrogels. Increasing the PBS pH level resulted in a faster curing process (accomplished in 1½ min). Spontaneously cured hydrogels generally showed decreased mechanical properties, but improved swelling behavior compared to UV-cured hydrogels. Nevertheless, the discussed system still possessed 50% of the elastic modulus in the tensile test in comparison to the UV-cured state; and showed the highest elastic modulus in comparison to other spontaneously cured systems. The storage modulus of the mentioned hydrogel in the spontaneously cured state was very close to the same parameter in the UV-cured hydrogel based on the same precursors. It also possessed the highest storage modulus between all the spontaneously cured hydrogels. Although the obtained swelling properties of this system were not the highest between all the tested hydrogels, these parameters were still in an acceptable range as for a hydrogel proposed for tissue scaffold application (swelling ratio: 9.72, water content: 89.71%, volumetric swelling ratio: 9.05). Furthermore, the system had the lowest weight loss ratio between all the acrylate-based hydrogels (including both UV and spontaneously cured systems), which along with the Raman spectroscopy results shows the high crosslinking efficiency of the system. Polyethylene glycol Hydrogel Tissue Scaffold Spontaneous UV Thiol-Ene Polymer Chemistry Polymerkemi
15	Immobilization of Ethylene Bis-Indenyl Ligands on Functionalized Silica Gel Simerly, Thomas, Milligan, Tyson, Mohseni, Ray, Vasiliev, Aleksey 26 September 2012 (has links) Four ethylene bis-indenyl ligands containing tethers of various lengths were successfully immobilized on the surface of functionalized silica gel. The strategy of immobilization was based on catalytic thiol-ene coupling of terminal alkene groups in the tethers with surface thiol groups. Obtained materials have high BET surface area and pore volume. The method developed can be used for immobilization of catalytically active bis-indenyl metallocene complexes, thus preventing their dimerization and deactivation. ethylene bis-indenyl ligands functionalized silica gel immobilization thiol-ene coupling Chemistry
16	Chemically-Patterned Substrates via Sequential Photoinitiated Thiol-ene Reactions asTemplates for the Deposition of Molecules and Materials on Surfaces Sy Piecco, Kurt Waldo 14 June 2019 (has links) No description available. Chemistry Materials Science Physical Chemistry photolithography thiol-ene click chemistry DNA stretching perovskite thin film patterning
17	Synthesis of Polyhedral Oligomeric Silsesquioxane(POSS)-Based Shape Amphiphiles with Two Polymeric Tails of Symmetric or Asymmetric Compositions Wang, Zhao 03 June 2013 (has links) No description available. Polymer Chemistry Polymers Polyhedral oligomeric silsesquioxanes Thiol-ene ATRP shape amphiphiles
18	Uncovering New Photochemical Pathways Through Molecular Restrictions Ahuja, Sapna 19 August 2020 (has links) No description available. Organic Chemistry Chemistry Photoene reaction Photo Diels Alder reaction Photocycloadditions Thiol ene reaction
19	Lignin/Carbon Fibre Composites / Lignin/Kolfiberkompositer Al Husseinat, Ali, Persson, Emma, Carlhamn Rasmussen, Ran, Rynkiewicz, Filip January 2021 (has links) The market is in great need of more environmentally friendly alternatives to fossil-based composite materials to obtain a more sustainable future. Lignin is the second most common biopolymer and is a byproduct in the pulping and paper industry. Fractionation of lignin has made it possible to receive lignin with narrow dispersity and low molecular weight, which is suitable for further applications. Modification of lignin structure yields new reactive sites that can be tailored for specific needs. Because of the aromatic structure of lignin, it is a promising renewable resource for production of thermosets. In this project Kraft lignin is sequentially solvent-fractionated and modified in an allylation process with allyl chloride. The allylated lignin is reacted with a cross-linking agent and used to impregnate carbon fibre mats. The resin-coated material is then cured at 125 oC to achieve a composite material. The project also encompasses characterization of the chemical structure of lignin in the different fractions. The morphology and adhesive properties of the lignin as well as the carbon fibres and the composite material was investigated. Although the production of composite material from lignin and carbon fibres were accomplished, bubble formation in the resin was a problem for all composite samples that were prepared, whether it was during solvent evaporation or during curing. By performing the addition of resin to carbon fibre mats in multiple steps, where pressure is added after the first applied layer, it is suggested that complete adhesion to the carbon fibre can be achieved, whilst maintaining adequate resin to carbon fibre ratio. / Marknaden är i stort behov av mer miljövänliga alternativ till fossilbaserade kompositmaterial för att kunna erhålla en mer hållbar framtid. Lignin är den näst vanligaste aromatiska biopolymeren och framställs som en biprodukt i pappersindustrin. Fraktionering av lignin har gjort det möjligt att erhålla lignin med låg dispersitet och molekylvikt vilket är lämpligt för vidare applikationer. Modifiering av lignins struktur ger upphov till nya reaktiva grupper som kan anpassas för ens behov. Den aromatiska strukturen som lignin besitter resulterar i en lovande förnybar resurs för produktion av härdplast. I detta projekt är Kraft lignin sekventiellt fraktionerat med lösningsmedel och modifierat med hjälp av en allyleringsprocess i närvaro av allylklorid. Det allylerade ligninet reagerar med en tvärbindare och används vidare för att impregnera kolfiber. De impregnerade kolfibermattorna härdades i ugn vid 125 oC för att erhålla kompositmaterial. Projektet omfattar även karaktärisering av den kemiska strukturen i lignin från de olika fraktionerna. Morfologin och vidhäftningsförmåga av lignin, kolfiber och likaså kompositmaterialet undersöktes. Ett kompositmaterial bestående av kolfiber och lignin erhölls med framgång under projektets gång, dock var bubbelbildning ett stort problem under förångningen av lösningsmedel och även under härdningsprocessen. Addition av harts till kolfibermattorna i flera steg, där tryck är adderat efter det första lagret har blivit applicerat, anses vara en lovande metod för att en hög vidhäftningsgrad ska kunna erhållas. Detta medan ett adekvat förhållande mellan harts och kolfiber upprätthålls. Kraft lignin Solvent fractionation Selective allylation Lignin based composite material Thiol-ene thermoset Materials Chemistry Materialkemi
20	Developing Functionalized Polymer Systems to Promote Specific Interactions and Properties Zander, Zachary K., Zander 23 May 2018 (has links) No description available. Polymers Polymer Chemistry

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