Global ETD Search

1	Investigation of molecular and mesoscale clusters in undersaturated glycine aqueous solutions Zimbitas, G., Jawor-Baczynska, A., Vesga, M.J., Javid, Nadeem, Moore, B.D., Parkinson, J., Sefcik, J. 08 August 2019 (has links) Yes / In this work DLS, NTA, SAXS and NMR were used to investigate populations, size distributions and structure of clusters in undersaturated aqueous solutions of glycine. Molecular and colloidal scale (mesoscale) clusters with radii around 0.3-0.5 nm and 100–150 nm, respectively, were observed using complementary experimental techniques. Molecular clusters are consistent with hydrated glycine dimers present in equilibrium with glycine monomers in aqueous solutions. Mesoscale clusters previously observed in supersaturated glycine solutions appear to be indefinitely stable, in mutual equilibrium within mesostructured undersaturated solutions across all glycine concentrations investigated here, down to as low as 1 mg/g of water. / Supported by EPSRC funding via the SynBIM project (Grant Reference EP/P0068X/1) and by the Synchrotron SOLEIL. Clustering Mesostructured liquid phase Glycine Scattering
2	Single molecule tracking studies of flow-aligned mesoporous silica monoliths: pore order and pore wall permeability Park, Seok Chan January 1900 (has links) Doctor of Philosophy / Department of Chemistry / Daniel A. Higgins / This dissertation describes single-molecule tracking (SMT) studies for the quantitative characterization of one-dimensional (1D) nanostructures in surfactant-templated mesoporous silica monoliths prepared within microfluidic channels. Single molecule diffusion of fluorescent probe molecules within the cylindrical mesopores reflects microscopic morphologies and mass-transport properties of the materials with high temporal and spatial resolution. The pore organization and materials order are initially investigated as a function of sol aging prior to loading into the microfluidic channels. Mesopores in these materials are templated by Cetyltrimethylammonium bromide (CTAB). Wide-field fluorescence videos depict 1D motion of the dyes within the individual mesopores. Orthogonal regression analysis of these motions provides a measure of the mesopore orientation. Channels filled prior to gelation of the sol produce monoliths incorporating large monodomains with highly aligned mesopores. In contrast, channels filled close to or after gelation yield monoliths with misaligned pores that are also more disordered. Two-dimensional (2D) small angle X-ray scattering (SAXS) experiments support the results obtained by SMT. These studies help to identify conditions under which highly aligned mesoporous monoliths can be obtained and also demonstrate the utility of SMT for characterization of mesopore order. The non-ionic surfactant Pluronic F127 is also utilized as the structural-directing agent. The diffusive motions of PDI dyes that are uncharged, cationic and anionic are explored by SMT and fluorescence correlation spectroscopy (FCS). The SMT studies for the uncharged dye show development of 1D diffusion along the flow direction while charged dyes exhibit predominant isotropic diffusion, with each of these behaviors becoming more prevalent as a function of aging time after filling of the microfluidic channels. SMT studies from silica-free F127 gels suggest that partitioning plays a important role in governing the diffusion behavior of the PDI dyes within the surfactant-filled mesopores. FCS results exhibit similar mean diffusion coefficients for all three dyes that suggest these dyes diffuse through similar sample regions. These studies demonstrate that the silica pore walls in the mesoporous silica monoliths remain permeable after gelation and that partitioning of solute species to different regions within the pores plays an important role in restricting the dimensionality of their diffusive motion Analytical chemistry Material characterization Mesostructured silica Single-molecule tracking Fluorescence correlation spectroscopy Molecular diffusion
3	Développement de nouveaux catalyseurs d'hydrotraitement basés sur l'encapsulation d'hétéropolyoxometallates dans des silices mésostructurées : application à la production de carburants propres / Development of new hydrotreating catalysts based on the encapsulation of heteropolyoxometalates into mesostructured silica : Application on ultra low sulfur diesel fuels Lopes Silva, Susana 10 January 2013 (has links) Le développement de technologies plus propres et économes en énergie amène aujourd’hui l’industrie du raffinage à modifier ses stratégies de préparation de catalyseurs et à se tourner vers l'utilisation plus massive de catalyseurs hétérogènes plus actifs, sélectifs, stables et régénérables.Récemment une méthode originale a été développée par Dufaud et al. (J. Mater. Chem., 2009, 19, 1142-1150) pour encapsuler des polyoxométallates (POMs) dans les murs des silices mésoporeuses. Le projet de thèse a visé l’élaboration de nouveaux catalyseurs basés sur cette nouvelle méthodologie qui devrait conduire à des systèmes à haute teneur en métal actif Mo/W bien dispersé, avec une meilleure proximité spatiale entre le Mo/W et son promoteur. Afin de mettre en évidence cette proximité, différentes voies ont été envisagées :i) synthèse en deux étapes comportant l'encapsulation des POMs dans les murs de SBA-15, suivie d’une imprégnation à sec des promoteurs (Ni(NO3)2 ou Co(NO3)2)ii) synthèse en une seule étape comportant l'imprégnation à sec de POMs substitués Co3PCoMo11O40H, Ni3PNiMo11O40H, Co3/2PMo12O40 ou Ni3/2PMo12O40 iii) préparation traditionnelle par co-Imprégnation à sec d’une silice SBA-15 par une solution de POMs et Ni(NO3)2 ou Co(NO3)2, afin de mettre en évidence non seulement l'intérêt de la nouvelle méthode de préparation mais aussi le gain lié à l'utilisation de supports de type SBA-15 (par rapport aux supports aluminiques conventionnels) ayant des caractéristiques texturales aussi remarquables. L’effet du traitement de sulfuration sur ces solides a été étudié et l’évaluation des propriétés catalytiques de ces matériaux a été réalisée sur des molécules modèles en hydrogénation du toluène, hydrodésulfuration du thiophène et du 4,6-DMDBT. A partir des résultats obtenus, une des stratégies de synthèse a été optimisée, en vue de l'élaboration de matériaux encore plus actifs. / Economic growth in the developing countries over the past decade has increased the global demand for crude oil. It is projected that the global crude slate will become sourer, with a sulfur content above 1.3 wt%. An overall aim of policymakers is thus to ensure that transportation fuels do not surpass a sulfur content of 10 ppm. Several solutions are possible to achieve the nowadays goals, that affect either the process or the catalyst. The latter solution, which does not involve significant additional costs for refiners, is therefore the most studied. One way to improve the nowadays catalysts would be to increase the content of active metal (eg cobalt and molybdenum in the case of CoMo systems). Nevertheless, at higher metal loadings, the formation of refractory species such as CoMoO4 or Co3O4 by sintering during calcination and/or sulfidation steps has been reported for alumina-Supported catalysts. This PhD project is based on the development of new hydrotreating catalysts, through a 2-Step one-Pot method : synthesis of polyoxometalates-Containing mesoporous SBA-15 materials, followed by incipient wetness impregnation of active phase promoter. The encapsulation of these species within the silica matrix would prevent the agglomeration of large particles during sulfidation reactions and could thus lead to systems with high content of active metal well dispersed over the support. One aim of this study was to evaluate the potential of these catalysts in the hydrotreating of several feedstocks, such as diesel oil, gasoline or vegetal oil. A second objective was the understanding of the nature of the different interactions between the active phase precursors and the support, according to each preparation technique.The non-Promoted hybrid catalyst showed a better dispersion of the metallic phase in the oxide state, compared to the catalysts prepared by incipient wetness impregnation, which can be correlated with stronger interactions between encapsulated POM and silica functionalities, such as siloxanes and silanols, as evidenced by Raman spectroscopy. However, the wide-Angle XRD showed the presence of MoO3 crystallites. HRTEM analyzes of the sulfided catalysts showed different species on this catalyst: small MoS2 slabs and metal particles (∼ 1 nm) mainly in the walls but also on the surface of pores; curved MoS2 slabs at mesopores surface leaving the entrance of the pore free; MoS2 hanks blocking the pores.This catalyst showed a relatively low sulfidation rate (determined by XPS), which could be associated with the presence of refractory species already present before activation. Thus, the toluene conversion represented per MoS2 clearly showed the interest of the catalyst prepared by this innovative method, presenting an intrinsic activity two-Fold higher than that of the catalyst prepared by dry impregnation.The subsequent impregnation of the active phase promoter of the hybrid catalyst (Pr(NO3)2, Pr = Ni or Co; 4 <pH <6), resulted in a very heterogeneous distribution of species, which could be attributed to a POM destruction by the impregnation solution, that afterward led to the sintering of large clusters. However, the hybrid catalysts promoted showed improved catalytic performances when compared to the traditional alumina-Based catalysts, when nickel is used as a promoter. However, the sulfidation and promotion rates of these catalysts must be improved: the catalyst with the highest Ni content showed (i) a high Ni/Mo atomic ratio of 0.4, which would lead to a loss of active sites by excessive decoration, and (ii) the formation of species such as NixOwSy or NixSy, which could lead to the loss of active sites, dispersion and access to the active phase.Perspectives towards an enhanced HDT catalyst based on the findings of this project are:Milder synthesis calcination conditionsSulfidationPost-Synthetic treatment in order to introduce Ni and Mo in proximal vicinityRegeneration of HDT hybrid catalysts Hydrotraitement Polyoxométallates Matériaux mésostructurés Encapsulation Catalyseurs sulfurés Catalyse hétérogène Hydrotreatment Polyoxometalates Mesostructured materials Encapsulation Sulfided catalysts Heterogeneous Catalysis
4	La catalyse au palladium pour l'obtention d'indoles fonctionnalisés : application à une synthèse monotope d'indoloquinones par catalyse hétérogène / Palladium catalysis for functionalised indoles syntheses : application to a onepost synthesis of indoloquinone through heterogeneous catalysis Batail, Nelly 08 October 2010 (has links) Depuis le début des années 1990, l'hétéroannélation de Larock est apparue comme une méthode de choix pour obtenir, en une seule étape, des indoles 2,3-disubstitués. Cependant, bien qu'efficace, certains inconvénients restaient associés à cette stratégie comme l'utilisation d'un système catalytique homogène associé à l'emploi de sels. Pour cette raison, nous avons développé une nouvelle méthodologie sans sels ou additifs par catalyse hétérogène. Différents catalyseurs commerciaux ou faciles d'accès (Pd/C ou [Pd]/NaY) ainsi que de nouveaux complexes au palladium immobilisés sur SBA-15 ont été testés. De façon surprenante, ces nouvelles conditions ont permis une activation de 2-bromoanilines et ce, sans l'emploi d'additifs. Une autre méthode d'obtention de ces hétérocycles a émergé ces dernières années et se pose comme une alternative aux couplages traditionnels : l'arylation d'indoles. Malgré de nombreuses améliorations, aucun travail ne décrivait une procédure permettant une arylation complémentaire C2 ou C3 d'indoles libres avec un système catalytique unique. Nous avons développé un tel système, basé sur une pallado-catalyse dans l'eau. Cette stratégie permet d'atteindre des sélectivités C2/C3 ou C3/C2 élevées avec de bons rendements isolés par un simple contrôle du couple (base/halogénure d’aryle).Enfin, dans le cadre de nos travaux visant la synthèse par catalyse hétérogène de produits à haute valeur ajoutée, nous avons initié des études sur l'obtention de pyrroloiminoquinones. La méthode consistant en une catalyse hétérogène monotope en seulement deux grandes étapes devrait permettre un accès rapide à de nombreux dérivés bioactifs isolés d'organismes marins. / Since the beginning of the 90's, the Larock heteroannulation became a method of choice to afford, in a single step, 2,3-disubstituted indoles. While effective, this methodology suffered of drawbacks lied to the use of salts, additives and homogeneous catalyst. Thus, we developed the first ligand and salt free heterogeneous Larock heteroannulation. Different commercially available, home made catalysts (Pd/C or [Pd]/NaY) or new palladium complexes immobilised onto mesoporous silica SBA-15 were evaluated. Surprisingly, this methodology allowed an activation of the 2-bromoanilines without using additives. Another procedure to obtain indole nucleus emerged over the past few years as an outstanding alternative to traditional cross-coupling reactions: namely the “direct arylation”. Despite major improvements, no report focuses on complementary C2 and C3-arylation procedures by means of a unique catalytic system. Herein, we describe an innovative “on water” palladium-catalyzed C–H arylation of (NH)-indoles that is site-selective through a base/halide-controlled using cheap reagents. This methodology allows the preparation of either C2- or C3-arylindoles with high isolated yields. Finally, as part of our project related to syntheses of high added value products by heterogeneous catalysis, we investigated studies in order to obtain pyrroloiminoquinones. This new methodology using only two steps will permit an access to numerous bioactive analogues. Indole Palladium Catalyse homogène et hétérogène Matériaux mésostructurés Arylation CH-activation Oxydation Pyrroloiminoquinones Indole Palladium Homogeneous and heterogeneous catalysis Mesostructured materials Arylation CH-activation Oxidation Pyrroloiminoquinones 541.3
5	Templating and self-assembly of biomimetic materials Mille, Christian January 2012 (has links) This thesis focuses on the use of biomolecular assemblies for creating materials with novel properties. Several aspects of biomimetic materials have been investigated, from fundamental studies on membrane shaping molecules to the integration of biomolecules with inorganic materials. Triply periodic minimal surfaces (TPMS) are mathematically defined surfaces that partition space and present a large surface area in a confined space. These surfaces have analogues in many physical systems. The endoplasmic reticulum (ER) can form intricate structures and it acts as a replica for the wing scales of the butterfly C. rubi, which is characterized by electron microscopy and reflectometry. It was shown to contain a photonic crystal and an analogue to a TPMS. These photonic crystals have been replicated in silica and titania, leading to blue scales with replication on the nanometer scale. Replicas analyzed with left and right handed polarized light are shown be optically active. A macroporous hollow core particle was synthesized using a double templating method where a swollen block copolymer was utilized to create polyhedral nanofoam. Emulsified oil was used as a secondary template which gave hollow spheres with thin porous walls. The resulting material had a high porosity and low thermal conductivity. The areas of inorganic materials and functional biomolecules were combined to create a functional nanoporous endoskeleton. The membrane protein ATP synthase were incorporated in liposomes which were deposited on nanoporous silica spheres creating a tight and functional membrane. Using confocal microscopy, it was possible to follow the transport of Na+ through the membrane. Yop1p is a membrane protein responsible for shaping the ER. The protein was purified and reconstituted into liposomes of three different sizes. The vesicles in the 10-20 nm size range resulted in tubular structures. Thus, it was shown that Yop1p acts as a stabilizer of high curvature structures. / <p>At the time of the doctoral defense, the following papers were unpublished and had a status as follows: Paper 2: Manuscript. Paper 3: Submitted. Paper 4: Submitted. Paper 5: Submitted.</p> biomimetic biotemplating self-assembly triply periodic minimal surfaces the gyroid photonic crystals band gap structural color chirality butterflies membrane proteins lipid bilayers sol-gel mesostructured polyhedral nanofoams
6	Optimal design of mesostructured materials under uncertainty Patel, Jiten 24 August 2009 (has links) The main objective of the topology optimization is to fulfill the objective function with the minimum amount of material. This reduces the overall cost of the structure and at the same time reduces the assembly, manufacturing and maintenance costs because of the reduced number of parts in the final structure. The concept of reliability analysis can be incorporated into the deterministic topology optimization method; this incorporated scheme is referred to as Reliability-based Topology Optimization (RBTO). In RBTO, the statistical nature of constraints and design problems are defined in the objective function and probabilistic constraint. The probabilistic constraint can specify the required reliability level of the system. In practical applications, however, finding global optimum in the presence of uncertainty is a difficult and computationally intensive task, since for every possible design a full stochastic analysis has to be performed for estimating various statistical parameters. Efficient methodologies are therefore required for the solution of the stochastic part and the optimization part of the design process. This research will explore a reliability-based synthesis method which estimates all the statistical parameters and finds the optimum while being less computationally intensive. The efficiency of the proposed method is achieved with the combination of topology optimization and stochastic approximation which utilizes a sampling technique such as Latin Hypercube Sampling (LHS) and surrogate modeling techniques such as Local Regression and Classification using Artificial Neural Networks (ANN). Local regression is comparatively less computationally intensive and produces good results in case of low probability of failures whereas Classification is particularly useful in cases where the reliability of failure has to be estimated with disjoint failure domains. Because classification using ANN is comparatively more computationally demanding than Local regression, classification is only used when local regression fails to give the desired level of goodness of fit. Nevertheless, classification is an indispensible tool in estimating the probability of failure when the failure domain is discontinuous. Representative examples will be demonstrated where the method is used to design customized meso-scale truss structures and a macro-scale hydrogen storage tank. The final deliverable from this research will be a less computationally intensive and robust RBTO procedure that can be used for design of truss structures with variable design parameters and force and boundary conditions. Artificial neural networks Local regression Reliability analysis Limit state approximation Mesostructured materials Topology optimization Structural optimization Topology Trusses
7	Síntese de sílica mesoestruturada empregando tratamento hidrotérmico em forno de microondas / Synthesis of mesostructured silica using hydrothermal treatment in microwave oven Luis Carlos Cides da Silva 01 October 2003 (has links) Estruturas de sílica mesoporosa cúbica em forma de gaiola (originalmente identificadas como FDU-1) altamente ordenadas, estáveis térmica e hidrotermicamente, com tamanhos de poros da ordem de 12 nm, foram sintetizadas a partir de TEOS e como molde utilizou-se o copolímero tribloco poli(óxido de etileno)-poli(óxido de butileno)-poli(óxido de etileno) 850-6600 (EO39BO47EO39), em meio ácido. Foi desenvolvido um procedimento de síntese, empregando um forno de microondas no tratamento hidrotérmico para obtenção da sílica FDU-1. Após tratamento hidrotérmico, as amostras foram calcinadas a 540°C, em duas etapas, empregando atmosferas de N2 e ar. Os materiais foram caracterizados por análise elementar, FTIR, TG, SAXS e Isotermas de adsorção de N2 a 77 K. Os dados de SAXS, associados aos das Isotermas de adsorção de N2, demonstraram que os materiais obtidos com 45 e 60 min de exposição a microondas, apresentaram propriedades texturais compatíveis com aquelas do material obtido pelo método convencional. Os ensaios de termogravimetria evidenciam a faixa de temperatura em que ocorrem as decomposições térmicas do copolímero no material como sintetizado e conduziram a uma otimização das melhores condições para calcinação. As curvas TG/DTG indicaram que no aquecimento dos materiais até 1200ºC, há a transformação completa dos grupos silanóis em siloxanos a partir da eliminação de água. Esse fato é confirmado a partir dos espectros de absorção na região do IV e possibilitou estimar que a quantidade dos grupos Si-OH na superfície do material varia com o tempo de tratamento hidrotérmico na etapa de síntese. / Highly ordered, thermally and hidrotermally stable, with large pore size of 12 nm, caged-like cubic mesoporous silica structures (originally denoted FDU-1) were synthesized from TEOS and poly(ethylene oxide)-poly(butylene oxide)poly(ethylene oxide) B50-6600 triblock copolymer template (EO39BO47EO39) under acidic conditions.The synthesis procedure was developed using microwave oven for hydrothermal treatment to obtain FDU-1 silica. After hydrothermal treatment, the samples were calcined to 540 ºC, in two stages, using N2 and air atmospheres. The materials characterized by elementary analysis, FTIR, TG, DRX and nitrogen adsorption isothermal at 77 K. The data association of SAXS and the nitrogen adsorption isothermal demonstrated that the material isolated with 45 and 60 minutes of the exposition to the microwaves in the hydrothermal treatment showed testure properties compatible to that one of material obtained by the conventional method. Thermogravimetric experiments evidenced the temperature range where occur copolymer thermal decomposition according to the synthesis, as synthesized materials. This information was important to optimize the material calcination conditions. The TG/DTG curves indicated that, in the material heated up to 1200 ºC, occurs complete transformation of silanol in to siloxane groups with water elimination. This fact is confirmed through the IR spectra and enabled to calculate the quantity of the Si-OH groups in the material surface which vary hydrothermal treatment time in the syntesis stage. Catálise Estrutura dos materiais Materiais mesoestruturados Método termoanalítico (Aplicações) Tratamento Hidrotérmico Tratamento Microondas Catalysis Hydrothermal treatment Mesostructured materials Microwave treatment Structure of materials Thermoanalytical method (Applications)
8	Síntese de sílica mesoestruturada empregando tratamento hidrotérmico em forno de microondas / Synthesis of mesostructured silica using hydrothermal treatment in microwave oven Silva, Luis Carlos Cides da 01 October 2003 (has links) Estruturas de sílica mesoporosa cúbica em forma de gaiola (originalmente identificadas como FDU-1) altamente ordenadas, estáveis térmica e hidrotermicamente, com tamanhos de poros da ordem de 12 nm, foram sintetizadas a partir de TEOS e como molde utilizou-se o copolímero tribloco poli(óxido de etileno)-poli(óxido de butileno)-poli(óxido de etileno) 850-6600 (EO39BO47EO39), em meio ácido. Foi desenvolvido um procedimento de síntese, empregando um forno de microondas no tratamento hidrotérmico para obtenção da sílica FDU-1. Após tratamento hidrotérmico, as amostras foram calcinadas a 540°C, em duas etapas, empregando atmosferas de N2 e ar. Os materiais foram caracterizados por análise elementar, FTIR, TG, SAXS e Isotermas de adsorção de N2 a 77 K. Os dados de SAXS, associados aos das Isotermas de adsorção de N2, demonstraram que os materiais obtidos com 45 e 60 min de exposição a microondas, apresentaram propriedades texturais compatíveis com aquelas do material obtido pelo método convencional. Os ensaios de termogravimetria evidenciam a faixa de temperatura em que ocorrem as decomposições térmicas do copolímero no material como sintetizado e conduziram a uma otimização das melhores condições para calcinação. As curvas TG/DTG indicaram que no aquecimento dos materiais até 1200ºC, há a transformação completa dos grupos silanóis em siloxanos a partir da eliminação de água. Esse fato é confirmado a partir dos espectros de absorção na região do IV e possibilitou estimar que a quantidade dos grupos Si-OH na superfície do material varia com o tempo de tratamento hidrotérmico na etapa de síntese. / Highly ordered, thermally and hidrotermally stable, with large pore size of 12 nm, caged-like cubic mesoporous silica structures (originally denoted FDU-1) were synthesized from TEOS and poly(ethylene oxide)-poly(butylene oxide)poly(ethylene oxide) B50-6600 triblock copolymer template (EO39BO47EO39) under acidic conditions.The synthesis procedure was developed using microwave oven for hydrothermal treatment to obtain FDU-1 silica. After hydrothermal treatment, the samples were calcined to 540 ºC, in two stages, using N2 and air atmospheres. The materials characterized by elementary analysis, FTIR, TG, DRX and nitrogen adsorption isothermal at 77 K. The data association of SAXS and the nitrogen adsorption isothermal demonstrated that the material isolated with 45 and 60 minutes of the exposition to the microwaves in the hydrothermal treatment showed testure properties compatible to that one of material obtained by the conventional method. Thermogravimetric experiments evidenced the temperature range where occur copolymer thermal decomposition according to the synthesis, as synthesized materials. This information was important to optimize the material calcination conditions. The TG/DTG curves indicated that, in the material heated up to 1200 ºC, occurs complete transformation of silanol in to siloxane groups with water elimination. This fact is confirmed through the IR spectra and enabled to calculate the quantity of the Si-OH groups in the material surface which vary hydrothermal treatment time in the syntesis stage. Catálise Catalysis Estrutura dos materiais Hydrothermal treatment Materiais mesoestruturados Mesostructured materials Método termoanalítico (Aplicações) Microwave treatment Structure of materials Thermoanalytical method (Applications) Tratamento Hidrotérmico Tratamento Microondas
9	Synthèse sélective de N-hétérocycles carbonylés par multi-catalyse homogène et hétérogène / Selective synthesis of carbonylated N-heterocycles by homogeneous and heterogeneous multi-catalysis Genelot, Marie 05 January 2011 (has links) La synthèse tout-en-un de 4-quinolones et d'indoxyles a été réalisée par couplage de Sonogashira carbonylant suivi d'une cyclisation. Une étude en catalyse homogène a révélé que les catalyseurs présents contrôlaient la sélectivité vers l'un ou l'autre des composés. Si la première étape est pallado-catalysée, l'étape de cyclisation est catalysée par des nucléophiles organiques. Ainsi, des 4-quinolones ont été préparées par multi-catalyse {[Pd]+amine} et des indoxyles par catalyse tandem {[Pd]/phosphine}. Les systèmes catalytiques ont été hétérogénéisés par fonctionnalisation de silices mésoporeuses de type SBA. Deux stratégies ont été utilisées pour contrôler la localisation de la fonctionnalité. Différents complexes de Pd ont été intégrés dans les pores du matériau par greffage post-synthétique ou dans les murs par synthèse directe. Plusieurs amines et une phosphine ont été immobilisées par greffage post-synthétique donnant ainsi des catalyseurs nucléophiles fonctionnalisés dans leurs pores. Les activités catalytiques de ces matériaux ont été évaluées dans la synthèse de la 2-phényl-4-quinolone et du 2-benzylidène-indoxyle. La première a été préparée dans de bons rendements et le système {[Pd]@SBA+amine@SBA} est recyclable sur 3 cycles. Tous les matériaux ont montré une lixiviation du Pd mais leur utilisation permet de diminuer la contamination en Pd du produit final comparé à un complexe homogène. L'indoxyle a été obtenu avec un système semi-hétérogène {[Pd]@SBA/PPh3}, l'utilisation de la phosphine greffée conduisant à la transformation de l'indoxyle vers le 2-benzylindole. La formation d'α-céto-amides en catalyse hétérogène via double carbonylation a aussi été étudiée / The one-pot selective synthesis of 4-quinolones and indoxyls was achieved through a carbonylative Sonogashira coupling followed by cyclization. A study in homogeneous catalysis revealed that the nature of catalysts in presence controlled the selectivity toward each compounds. Whereas the first coupling step is palladium catalyzed, the cyclizations require organic nucleophilic species. Thus, 4-quinolones were obtained by one-pot multi-catalysis {[Pd]+amine} and indoxyls by one-pot tandem catalysis {[Pd]/phosphine}. The catalytic systems were heterogenized by functionalizing mesostructured SBA silicas. Two strategies were employed aiming at a control of the localization of the functionality. Different Pd complexes were integrated in the pores of the material by post-synthesis grafting or incorporated into the walls via direct synthesis. Different amines and a phosphine were immobilized by post-synthesis grafting affording hybrid materials containing amine or phosphine catalysts in their pores. Catalytic activities of those materials were evaluated in the reaction affording 2-phenyl-4-quinolone and 2-benzylidene-indoxyl. The former was obtained in good yields and the heterogeneous catalytic system {[Pd]@SBA+amine@SBA} was recyclable over 3 runs. All hybrid materials showed Pd leaching but their uses still enables to decrease the Pd contamination of the final product compared to homogeneous complexes. The indoxyle compound was obtained in a semi-heterogeneous system {[Pd]@SBA/PPh3}, the use of the grafted phosphine providing transformation of the indoxyle toward 2-benzylindole. Formation of α-keto-amids by heterogeneously catalyzed double carbonylation was also studied 4-quinolone Indoxyle Sonogashira carbonylant Silice SBA mésostructurées Greffage Palladium Lixiviation Catalyse nucléophile organique 4-quinolone Indoxyl Carbonylative Sonogashira SBA mesostructured silica Grafting Palladium Leaching Organic nucleophilic catalysis 547.215
10	Matériaux hybrides mésoporeux fonctionnalisés par des polymères : élaboration, caractérisation physico-chimique et applications biomédicales / Mesoporous hybrid materials functionalized by polymers : preparation, physicochemical characterization and biomedical applications Molina, Émilie 10 December 2015 (has links) Ce travail de thèse porte sur l’élaboration de matériaux siliciques mésostructurés par des agents structurants originaux : les micelles complexes de polyions ou micelles PICs, qui présentent la particularité de s’assembler de façon réversible dans l’eau. Les micelles PICs sont des assemblages formés par interactions électrostatiques entre un copolymère à blocs double-hydrophiles (DHBC) neutre-ionisable et un agent de micellisation de charge opposée au DHBC. Le DHBC utilisé est un poly(oxyde d’éthylène)-b-poly(acide acrylique) POE-b-PAA synthétisé par polymérisation radicalaire contrôlée par transfert d’atome (ATRP) et les agents de micellisation sont commerciaux (oligochitosane OC, antibiotiques aminoglycosides). Tout d’abord, l’influence de divers paramètres (pH, température, concentration) sur les propriétés d’association des micelles PIC a été étudiée en solution aqueuse. Puis, l’influence de ces mêmes paramètres sur la structuration de la silice en présence de complexes de polyions POE-b-PAA/OC a été recherchée, et a permis de mieux appréhender les mécanismes de formation des matériaux hybrides. Il a ainsi été montré qu’en jouant sur les interactions entre les divers constituants, il était possible de contrôler la mésostructure des matériaux (hexagonale, lamellaire, vermiculaire) et leur morphologie (nanoparticules, microparticules). Enfin, la versatilité de l’utilisation de micelles PIC en tant qu’agents structurants de la silice a été mise en évidence avec des systèmes POE-b-PAA/aminoglycosides, qui ont permis d’obtenir directement des matériaux structurés ordonnés chargés en principes actifs. Par ailleurs, les possibilités offertes par l’utilisation des micelles PIC notamment en termes de fonctionnalité et de réversibilité de la micellisation, ont été exploitées et ont permis d’obtenir facilement des matériaux mésoporeux fonctionnalisés par les chaînes ionisables du DHBC, suite à l’extraction sélective de l’agent de micellisation. Il a été montré que de tels matériaux fonctionnels sont capables de complexer des espèces de charges opposées et notamment des principes actifs, qui peuvent par la suite être relargués de façon pH-dépendante. / Mesostructured hybrid materials were prepared by using original silica-structuring agents, which are polyion complex (PIC) micelles. A great advantage of PIC micelles is that they can be reversibly assembled in aqueous solution by varying physico-chemical parameters. PIC micelles are formed by electrostatic complexation between a neutral-anionic double-hydrophilic block copolymer (DHBC) and an oppositely charged agent of micellization; here a poly(ethylene oxide)-b-poly(acrylic acid) PEO-b-PAA (synthesized by controlled radical polymerization by atom transfer ATRP) and commercial polyamines (oligochitosan OC or aminoglycoside antibiotics) were respectively used. First, the influence of various parameters (pH, temperature, concentration) on PIC micelle association properties was investigated in aqueous solution. Then, the effect of these parameters on the silica mesostructuring process was studied, it provides a better understanding of the formation mechanisms. It was shown that varying interactions between constituents allows to control the mesostructure (hexagonal, lamellar, wormlike) and the material morphology (nanoparticle, microparticle). Finally, the versatility of the approach has been demonstrated with PEO-b-PAA/aminoglycoside systems. Drug-loaded ordered mesostructured materials were prepared following a one-pot route. Moreover, taking advantage of the high degree of functionality of DHBC polymers and of the reversibility of the micellization, polyacid-functionalized mesoporous materials were directly prepared by selectively extracting the micellization agent. PAA-functionalized silica materials were then used to complex diverse active entities such as drugs, whose delivery could be pH-controlled. Chimie sol-Gel Fonctionnalisation Applications biomédicales Polyions Complex Micelles (PIC micelle) Sol-Gel chemistry Mesostructured and Mesoporous Materials Functionalization Biomedical applications 540

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