High Performance Materials Containing Nitrile Groups

Sumner, Michael Jameson

24 April 2003

The objective of the research described in this thesis has been to improve the toughness of phenolic networks while maintaining flame resistance. A four step synthetic scheme has been developed to prepare 4,4′-Bis(3,4-dicyanophenoxy)biphenyl(biphenoxyphthalonitrile). A 700 g mol-1 novolac oligomer was cured with relatively low concentrations of this reagent (~20 wt %) into high Tg (~190 °C) networks. The curing reaction was attrubuted to nucleophilic attack of the phenolic hydroxyl on the nitrile groups of the phthalonitrile resulting in the formation of heterocylic rings. TGA and cone calorimetry demonstrated that these networks have excellent thermo-oxidative stability. Further goals were to develop halogen-free, flame retardant monomers for improving the thermo-oxidative resistance of polystyrene and dimethylacrlyate/styrene(vinyl ester) networks. 4-Vinylphenoxyphthalonitrile, a phthalonitrile derivative of styrene, was synthesized. FTIR has been utilized to demonstrate this new monomer co-cured into vinyl ester networks in free radical thermosetting polymerizations. Upon post-curing the networks between 200-260 °C for ~1.5 h, the nitrile groups reacted to form heterocyclic crosslinks. TGA and cone calorimetry demonstrated that the 4-vinylphenoxyphthalonitrile substantially improved the flame resistance of vinyl ester networks. Copolymerizations of styrene and 4-vinylphenoxyphthalonitrile were conducted at 75 °C for 24 h using 0.5 wt % AIBN in chlorobenzene. Dynamic TGA at 10 °C min-1 in air showed that copolymers containing 10 and 25 mole % of 4-vinylphenoxyphthalonitrile had increased initial weight loss temperatures in air by (~50 °C higher) and increased the char yield between 400-600 °C. High molecular weight nitrile-functional, (hexafluoroisopropylidene)diphenol based aromatic poly(arylene ether)s with pendent sulfonic acid groups were prepared by nucleophilic step copolymerization of 4,4′-(hexafluoroisopropylidene)diphenol, 2,6-dichlorobenzonitrile, and 3,3′-disulfonate-4,4′-dichlorodiphenylsulfone under basic conditions in N-methyl-2-pyrrolidinone at 200 °C. A series of these materials with systematically varied concentrations of the sulfonic acid moieties showed increased glass transition temperatures, proton conductivities, and hydrophilicities as a function of disulfonation. Atomic force microscopy (AFM) demonstrated that the acidified copolymer with 35 mole % of disulfonated units was phase separated into a co-continuous morphology of hydrophobic and hydrophilic domains. / Ph. D.

vinyl ester networks

phthalonitrile

polystyrene copolymers

phenolic networks

proton conducting membranes

Ketone Supplementation, Cardiometabolic Health, and Cognition in Humans

Reid, Glen Robertson

06 July 2022

Cardiovascular disease (CVD) is the leading cause of death in the United States. Age is a primary risk factor for the development of CVD and middle-age is a vulnerable period where risk factors for the disease begin to exceed diagnostic thresholds. Interest has increased for the use of low carbohydrate high fat (LCHF) ketogenic diets due to their reported improvements for cardiometabolic health. Supplementation with exogenous ketone esters (KE) has been shown to increase plasma β-hydroxybutyrate (BHB) and mimic the metabolic effects of LCHF ketogenic diets. Evidence suggests elevated concentrations of plasma BHB may lower blood pressure, improve vascular function, attenuate hyperglycemic responses, and enhance cognitive function. The majority of research has been conducted in preclinical models, and whether exogenous KE supplementation has similar improvements in humans of any ages remains relatively unanswered. To address this we conducted a randomized, placebo controlled, crossover design study in healthy, sedentary, middle to older aged adults who received the exogenous KE (or placebo), and consumed the supplement for 2-weeks (3x/day, 15 minutes prior to each meal; breakfast, lunch, and dinner). Our first hypothesis was to test that KE supplementation would improve vascular function by increasing flow-mediated dilation, reducing arterial stiffness, and lowering blood pressure. Secondly, we hypothesized that KE supplementation would attenuate the glycemic response to an oral glucose tolerance test, improve glycemic variability, and show reductions in postprandial glucose levels. Thirdly, we tested the hypothesis that KE supplementation would improve cognitive performance by showing improvements in processing speed, memory, attention control, and executive functions. In support of our first hypotheses, KE supplementation increased flow-mediated dilation (8.1 ± 1.3 vs. 7.7 ± 1.2%, p = 0.023), but it did not show any difference in arterial stiffness or blood pressure. In contrast to our second hypotheses, following the KE supplementation intervention there were no significant difference from the placebo in terms of glycemic response, variability or mean 2-hour post-meal glucose. In support of our third hypotheses, we found a significant improvement in measures of working memory (7.55 ± 0.93 vs. 7.27 ± 0.29, p = 0.026) and inhibitory control (80 ± 38 vs. 87 ± 32ms, p = 0.035) following the 14-day KE supplementation. More research is needed to elucidate the effects of KE on cardiometabolic health and cognition. / Doctor of Philosophy / Recently there has been an increase in the popularity of low carbohydrate high fat (LCHF) ketogenic diets, with advocates for the diet claiming increased benefits in weight loss and blood glucose control, therefore leading to an increased interest for its use in the treatment for cardiovascular disease, obesity, and diabetes. As more evidence has accumulated much of the impact LCHF ketogenic diets are said to have, has been attributed to a state known as nutritional ketosis, which occurs in response to the restriction of carbohydrates from the diet. Ketone esters (KE) have been shown to effectively elevate ketone bodies (alternative energy produced by the body during times when glucose stores are low) without the need of altering one's own diet, however, this method of inducing ketosis is still lacking evidence for its impact on cardiometabolic health in humans. The purpose of these studies is to determine the effect of having sustained elevations of ketone bodies on our health and cognition in humans. Study 1 included healthy, sedentary middle to older aged adults who consumed a KE for 2-weeks (3x/day, prior to each meal) and a placebo. Following supplementation participants completed test to assess our vascular health and blood sugar control. Study 2 included healthy, sedentary middle to older aged adults who consumed a KE for the same 2-weeks (3x/day, prior to each meal) and a placebo. Participants underwent a series of tests to assess cognitive performance. Overall, after a 2-week supplementation period we found significant improvements in our blood vessel function and with cognitive performance where we saw improvements in working memory, and inhibitory control.

Ketone ester

β-hydroxybutyrate

cardiovascular disease

vascular health

glucose homeostasis

cognition

The Chemistry of Dimethacrylate-Styrene Networks and Development of Flame Retardant, Halogen-Free Fiber Reinforced Vinyl Ester Composites

Rosario, Astrid Christa

12 December 2002

One of the major classes of polymer matrix resins under consideration for structural composite applications in the infrastructure and construction industries is vinyl ester resin. Vinyl ester resin is comprised of low molecular weight poly(hydroxyether) oligomers with methacrylate endgroups diluted with styrene monomer. The methacrylate endgroups cure with styrene via free radical copolymerization to yield thermoset networks. The copolymerization behavior of these networks was monitored by Fourier Transform Infrared Spectroscopy (FTIR) at various cure conditions. Reactions of the carbon-carbon double bonds of the methacrylate (943 cm-1) and styrene (910 cm-1) were followed independently. Oligomers possessing number average molecular weights of 700 g/mole were studied with systematically increasing levels of styrene. The Mortimer-Tidwell reactivity ratios indicated that at low conversion more styrene was incorporated into the network at lower cure temperatures. The experimental vinyl ester-styrene network compositions deviated significantly from those predicted by the Meyer-Lowry integrated copolymer equation at higher conversion, implying that the reactivity ratios for these networks may change with conversion. The kinetic data were used to provide additional insight into the physical and mechanical properties of these materials. In addition to establishing the copolymerization kinetics of these materials, the development of halogen free fiber reinforced vinyl ester composites exhibiting good flame properties was of interest. Flame retardant vinyl ester resins are used by many industries for applications requiring good thermal resistance. The current flame-retardant technology is dependent on brominated vinyl esters, which generate high levels of smoke and carbon monoxide. A series of halogen free binder systems has been developed and dispersed in the vinyl ester to improve flame retardance. The binder approach enables the vinyl ester resin to maintain its low temperature viscosity so that fabrication of composites via Vacuum Assisted Resin Transfer Molding (VARTM) is possible. The first binder system investigated was a polycaprolactone layered silicate nanocomposite, which was prepared via intercalative polymerization. Transmission Electron Microscopy (TEM) and X-ray Diffraction (XRD) data indicated a mixed morphology of exfoliated and intercalated structures. The mechanical properties and the normalized peak heat release rates were comparable to the neat vinyl ester resin. Alternative binder systems possessing inherent flame retardance were also investigated. A series of binders comprised of novolac, bisphenol A diphosphate, and montmorillonite clay were developed and dispersed into the vinyl ester matrix. Cone calorimetry showed reductions in the peak heat release rate comparable to the brominated resin. / Ph. D.

vinyl ester

dimethacrylate

flame retardant

exfoliated

nanocomposites

thermoset matrix resin

layered silicates

reactivity ratios

network

Synthesis and Application of Boronic Acid Derivatives

Sun, Jing

23 May 2010

Boronic acids are attractive synthetic intermediates and have been shown to be effective as inhibitors of various enzymes. In this project, the overarching goal is the selective inhibition of a protease present in the mitochondria known as human ClpXP. To study the potential selective inhibition of Human ClpXP using N-terminal peptidic boronic acid, we have designed a synthetic scheme that includes?-borylation of °,?-unsaturated carbonyl compounds using Cu(I) as catalyst, °-alkylation, saponification/hydrogenation, amidation, and oxidative removal of pinacolyl group with sodium periodate. A simple amidoboronic acid was also synthesized for stability studies. This compound, synthesized in 44% overall yield, could be used as a surrogate for N-terminal peptidic boronic acid to provide basic understanding of the stability of more elaborate N-terminal peptidic boronic acids. During the synthesis of this compound, published deprotection methods were not suitable to deprotect the pinacol group. A two-step protocol for pinacolyl boronic ester deprotection via a diethanolamine protected intermediate was successfully developed with the advantages of mild reaction conditions, tolerance to various functional groups, short reaction time and ease of product isolation. The current results will be useful for the deprotection of other boronic esters, such as pinanediol protected compounds, which are being used extensively in stereoselective synthesis. / Master of Science

β-Borylation

Boronic Acid Derivatives

Human ClpXP

Pinacolyl Boronic Ester Deprotection

Diastereoselective α-Alkylation of Chiral β-Borylated Esters

Perfetti, Michael Thomas

13 January 2010

The use of boron in the synthesis and development of asymmetric methodologies and various biological and medicinal compounds has increased significantly over the last decade. This thesis reports the development of a novel diastereoselective reaction for the α-alkylation of chiral β-borylated esters. We propose that standard deprotonation of chiral β-borylated esters with lithium diisopropylamide (LDA) leads to the formation of a boron"ate" intermediate that upon treatment with an alkylation reagent collapses to provide chiral α, β-substituted boronic esters with a high degree of diastereoselectivity. This reaction is powerful in that a wide range of chiral β-borylated ester substrates can be employed that possess varying degrees of substitution and steric bulk. Results show that the reaction is syn-selective and provides yields of up to 60%, with diastereomeric ratios as high as (9.7:1). Additionally, alkylation products from bulkier tert-butyl esters provide higher DR values compared to those of methyl esters that possess the same β-functional groups. Several techniques were utilized to elucidate the mechanism of this reaction including variations of reaction temperature and equivalents of base, and also real-time analysis of the reaction by ¹¹B NMR experiments. / Master of Science

Diastereoselective α-alkylation

syn selective

11B NMR

boron-"ate"

β-boronic ester

Techno-economic Analysis of Continuous Ester Technology: Production of Glycerol Trivalerate and Propyl Acetate

Isberg, Gustav

January 2024

Organic esters are an important class of industrial and commercial chemicals that can be found in solvents, plasticizer, food flavours, detergents, agrochemicals, and pharmaceuticals. The most common way to synthesis organic esters is with esterification or transesterification. Where esterification was the chosen method in this thesis.  This thesis provides a techno-economic assessment on the production of propyl acetate and glycerol trivalerate through different continuous routes that is than compared with batch production under the same conditions. Simulations was done on trivalerate due to limited literature and data on pentaerythritol tetravalerate. Different continuous technologies that have been assessed in this thesis was plug flow reactor (PFR), Reactive Distillation (RD), and Reactive – Extractive Distillation (RED). The production of mono- and polyol esters with different unit operators was simulated in Aspen Plus V.14. Techno-Economic analysis was conducted with APEA (Aspen Process Economic Analyzer), where cost of raw materials, products, and utilities was inserted to evaluate annual operating cost and product sale. Reaction kinetic for esterification of trivalerate was estimated by obtained values from simulations of a Gibbs reactor in Aspen Plus at four different temperatures. Kinetics was estimated by applying the relation between the chemical equilibrium constant and the Arrhenius equation. Where rate constant and activation energy for forward and revers reaction was obtained by varying min and max values for lsqcurvefit in MATLAB and then validate results with published kinetics.  Results from production of propyl acetate with batch, PFR and RED provides an annual profit of approximately 1 M$ at a capacity of 41.65 kton/year. The three different process provides also approximately an equal capital cost, operating cost, equipment cost, and installed cost according to APEA. RED provided the lowest propyl acetate yield at 93%, batch and PFR provided a propyl acetate yield of 94%.  Results from production of trivalerate with batch, PFR, and RD provides an annual profit of 5.4, 5.78, and 9.2 M$ at a capacity of approximately 5 kton/year. Where RD process provides the lowest capital cost, operating cost, equipment cost, and installed cost compared to batch and PFR processes according to APEA. Obtained results from production of trivalerate can be used to evaluate the economic and technical feasibility of a continuous production plant for pentaerythritol tetravalerate (PETV). Where initial simulations show a good economic and technical viability of a continuous ester production plant.

Reactive Distillation

Reactive - Extractive Distillation

Polyol Ester

Aspen Plus

Glycerol Trivalerate

Chemical Process Engineering

Kemiska processer

Évaluation des propriétés physiques et mécaniques et les effets des cycles gel-dégel de composites fabriqués par enroulement filamentaire.

Boumarafi, Abdelkader

January 2014

Résumé : Le développement des matériaux composites et leur utilisation dans le domaine du génie civil ont fait l’objet d’une recherche extensive sur le renforcement des structures en béton armé. Dans ce contexte, les études sur la compréhension du comportement structural des tubes en matériaux composites (Polymère renforcé en Fibre, PRF) sont indispensables. De fait que les matériaux composites sont innovateurs, cela nous exige de procéder à des investigations expérimentales approfondies pour vérifier les hypothèses et les théories, avant de les produire à échelle industrielle. Ce projet présente une étude expérimentale approfondie sur l’évaluation des propriétés physiques et mécaniques des nouveaux tubes en matériaux composites (PRF), et des tests sur la durabilité du matériau utilisé, et permet d’étudier l’influence de quelques facteurs environnementaux sur ces propriétés mécaniques, ces conditions sont simulées par une immersion prolongée en milieu aqueux et l'exposition à des cycles gel-dégel en milieu humide. Les tubes considérés sont produits par le procédé d’enroulement filamentaire à l’aide des fibres de verre (E) et de résine (Vinyle-Ester). Les expérimentations seront effectuées sur des échantillons normalisés prélevés à partir du tube. Les résultats de cette étude sont d’une importance cruciale pour comprendre le comportement structural (avant et après un vieillissement accéléré) des nouveaux tubes fabriqués entièrement en polymères renforcés de fibres par le procédé de l’enroulement filamentaire. // Abstract : The development of composite materials and their integration in the field of civil engineering has been the subject of extensive research on strengthening reinforced concrete structures. In the perspective of strengthening concrete structures by tubes made of composite materials. In this context, the need for knowledge of the structural behaviour of tubes made from fibre reinforced polymer (FRP) composite materials is prominent. The large using of innovativeFRP required extensive theoretical and experimental investigations. This project presents an experimental study to evaluate both the physical and mechanical properties of FRP-composites tubes, and to investigate the impact of some environmental factors on their mechanical properties. The tubes are produced by a filament winding process using fibre (E)-glass and vinyl-Ester resin. The experiments will be performed on standardized samples of the tube. The main objective of this project is to assess the physical and mechanical properties of laminated FRP composites, and then test the durability of the material used in the manufacture of the tubes. It leads to the study of the effects of some environmental factors on the mechanical properties of material. These conditions occur during an immersion in an aqueous medium and exposure to freeze-thaw cycles. The results of this study are crucial to understand the structural behavior (before and after accelerated aging) of new FRP tubes made by filament winding process.

Matériaux composites FRP

Cycle gel et dégel

Essais mécaniques

Essais physiques

Fibres de verre

Résine vinyle-ester

Composite materials FRP

Freezing and thawing

Mechanical testing

Physical testing

Fiber-glass

Resin vinyl-ester

Caractérisation thermophysique des biodiesels : vitesse du son, densité, compressibilité / Thermophysic caracterization of the biodiesels : speed of sound, density, compressibility

Ndiaye, Elhadji Ibrahima

07 November 2012

Dans le cadre de la lutte pour la réduction des émissions de gaz à effet de serre, les biocarburants présentent un potentiel intéressant, en raison notamment de leur bilan CO2 "du puits à la roue" souvent très bon. Ainsi de nombreux programmes sont mis en œuvre, notamment en Europe, pour le développement de nouveaux carburants, et de moteurs automobiles adaptés à ces derniers. La conception de ces derniers nécessite une bonne maîtrise du système d’injection qui doit être aussi parfait que possible. Une meilleure connaissance du comportement et des propriétés sous haute pression de ces biocarburants revêt un caractère important. Le projet français NADIABIO rentre dans ce cadre et a pour principal objectif une meilleure maîtrise de l'injection (de la propagation d'onde dans la ligne HP à l'auto inflammation et la combustion) et de l'impact des biodiesels via une analyse fine à la fois numérique et expérimentale. En effet, dans le domaine des hautes pressions, la détermination des propriétés thermophysiques comme la densité ou les coefficients de compressibilité, présente souvent des difficultés contrairement à la vitesse du son qui peut se mesurer d’une manière simple et directe. Des dispositifs expérimentaux permettant d’effectuer des mesures de vitesses ultrasonores et de densité ont été mis au point pendant ce travail de thèse. Ils ont permis de fournir des données expérimentales de vitesses ultrasonores (pour des pressions et températures allant respectivement de 0,1 à 250 MPa et de 263,15 à 423,15K) et de densité (pour des pressions et températures allant respectivement de 0,1 - 100 MPa et de 283,15 à 393,15K). La campagne de mesure a été effectuée sur 12 biodiesels et sur un ensemble de 7 corps purs (EMHV, EEHV) représentatifs des mélanges étudiés. Cependant, pour des raisons de confidentialité, seuls les résultats relatifs aux corps purs et au Normafluid sont accessibles dans ce mémoire. Parallèlement, dans le but de proposer des méthodes de calcul prédictifs, nous nous somme intéressés à une procédure de type « predictor corrector », à une méthode de contribution de groupes moléculaires ainsi qu’à la théorie des états correspondants. Ces techniques de modélisation ont permis de déduire d’autres propriétés thermophysiques comme les coefficients de compressibilité, sous le même domaine de pression et de température. / Within the politic changes for the reduction of greenhouse gas emissions, biofuels present an interesting potential because of their very well CO2 balance sheet. Numerous projects were engaged in Europe, for the development of new fuels and for the design of automobile engines adapted to these carburant. The conception of new engine requires specific systems of injection which must be perfectly designed. With this aim in mind thermophysical properties such as density and compressibility must be known with accuracy. The French project “NADIABIO” goes into this industrial issue and its main objective consist in a better control of the injection (wave distribution in the High Pressure line, during the automobile inflammation and combustion process) and the impact of biodiesels (FAME and synthetic materials) on the environment through fine numerical and experimental analyses. The direct measurement of the density or the coefficients of compressibility often presents difficulties under high pressure. It is therefore easier to determine it indirectly from the velocity of sound, which can be measured in a simple and direct way with a good accuracy. Therefore, experimental devices allowing to make measurements of ultrasound speeds and density were finalized during this work. Experimental data of ultrasound speeds (from 0,1 to 250 MPa and from 263,15 to 423,15 K) and of density (0,1 to 100 MPa and 283,15 to 403,15K) have been determined with good precision on 19 biodiesels (mixtures and synthetic products (FAME, FAEE)). However, for reasons of confidentiality, only the results relative to the synthetic products and to Normafluid appear in this report. At the same time, with the aim of proposing predictive methods, we are interested in the procedure like “predictor-corrector”, in the method contribution of molecular groups and to the theory of the corresponding states which allowed deducting the other thermophysical properties like the coefficients of compressibility as a function of temperature and pressure.

Vitesse du son

Pression

Biodiesel

Compressibilité

Moteurs thermiques

Alkyles esters d’acide gras

Ester de méthyle

Speed of sound

Density

Pressure

Biodiesel

Compressibility

Automobile engines

Alkyls esters

Methyl ester.

Développement d’une nouvelle famille d’acides phosphoriques à chiralité planaire pour l’organocatalyse / Design of a new class planar chiral phosphoric acids for the organocatalysis

Stemper, Jérémie

06 November 2013

Depuis les années 2000 le domaine de l’organocatalyse asymétrique est en plein développement comme le montre le nombre croissant de publications sur le sujet. Durant cet essor un grand nombre d’organocatalyseurs a été développé, ils se classent en quatre catégories : les catalyseurs de transfert de phase, les bases de Lewis, les bases de Brønsted et les acides de Brønsted. Appartenant à cette dernière catégorie, les acides phosphoriques chiraux font partie des acides de Brønsted les plus populaire. Leurs premières utilisations en organocatalyse asymétrique remontent à 2004 où des acides phosphoriques dérivés du BINOL furent utilisés par Terada et Akiyama pour catalyser des réactions de Mannich de manière hautement énantiosélective. Depuis le champ d’application des acides phosphoriques s’est considérablement étendu et aujourd’hui environ 90 réactions différentes peuvent être catalysées efficacement par ces acides. En parallèle de ce développement des équipes ont commencé à apporter des modifications structurales aux acides phosphoriques dans le but d’étendre encore leur champ d’application. L’une des approches consiste à modifier le squelette carboné afin de modifier l’organisation spatiale de l’encombrement stérique chiral autour du phosphore. Le travail présenté dans ce manuscrit décrit l’élaboration et l’utilisation en catalyse d’une nouvelle famille d’acides phosphoriques à chiralité planaire basée sur un motif [3,3]paracyclophane. L’étude commence par la modélisation par calculs DFT de différents paracyclophanes dans le but d’évaluer la tension de cycle et la barrière de rotation imprimer à la structure en fonction de l’espaceur utilisé. Trois espaceurs sont sélectionnés pour des essais en synthèse : le -CH2-NTs-CH2-, le 1,8-naphtalènediyle et le 1,1’-ferrocènediyle. Les synthèses de trois bisphénols comportant les motifs précédents sont réalisées. Les bisphénol comportant les espaceurs -CH2-NTs-CH2-, le 1,8-naphtalènediyle n’ont pas pu être transformés en acides phosphoriques. En revanche il a été possible d’obtenir une nouvelle famille d’acides phosphoriques à chiralité planaire comportant le motif 1,1’-ferrocènediyle.Par la suite une méthode de synthèse permettant la variation facile des substituants aromatiques a été mise en place ainsi qu’une méthode de séparation de diastéréoisomères à l’aide d’un auxiliaire chiral afin d’obtenir des acides phosphoriques énantiopurs. Une famille de 6 acides phosphoriques a ainsi pu être synthétisée. Ces nouveaux acides ont ensuite été testés en organocatalyse asymétrique. La réaction de réduction par des esters de Hantzsch de quinoléines substituées en position 2 a servi de réaction test. Après sélection du meilleur acide, une étude sur l’influence de l’ester de Hantzsch a été menée conduisant à une forte augmentation de l’énantiosélectivité de la réaction. Enfin le champ d’application de la réaction a été explorer et des excès énantiomériques atteignant 92% ont pu être atteints. D’autres modifications structurales peuvent être apportées à cette nouvelle structure comme par exemple le remplacement du motif 1,1’-ferrocènediyle par le motif 1,8-dibromobiphénylènyl. Une influence non négligeable de l’espaceur sur les performances du catalyseur a pu être ainsi observée.L’étude a montré le potentiel de cette nouvelle famille d’acide phosphorique en organocatalyse asymétrique. Cette nouvelle famille va donc pouvoir être utilisée pour développer de nouvelle réaction énantiosélectives et ce dans le domaine de l’organocatalyse ou bien dans celui de la catalyse organométallique en utilisant le phosphate comme contre-ion chiral. / During the first decade of the century the organocatalysis has known an intense development shown by the increasing number of publications on the subject. This development led to the apparition of a wide number of different organocatalysts. These catalysts can be sorted in three categories: the phase transfer catalysts, the Lewis bases, the Brønsted bases and the Brønsted acids. One of the most used types of organocatalysts belonging to the latter category are the chiral phosphoric acids (CPA). The first use of these CPAs as organocatalysts was published in 2004 by Terada and Akiyama. They independently reported two Mannich-type reactions catalysed by BINOL-derived CPAs with high levels of enatioselectivity. Since then CPAs appeared as versatile catalysts and to this date more than 90 different reactions can be catalysed in a highly énantiosélective manner by these acids. Meanwhile some researchers began to modify the original BINOL-based phosphoric acids so as to broaden their scope. One possible approach consists in changing the chiral backbone to change the spatial organisation of the chiral environment. The work reported in this manuscript describe the design, the synthesis and the use in organocatalysis of a new planar chiral phosphoric acids based on a [3,3]paracyclophanes scaffold. This study begins with the DFT modelling of a series of paracyclophanes in order to evaluate the ring strain and rotation barrier induced by the nature of different tethering units. Three tethers have been selected for synthesis trials: the -CH2-NTs-CH2-, the 1,8-naphtalenediyl and the 1,1’-ferrocenediyl. Three different bisphenols each one embedding one of the three tethers mentioned above have been synthesised. It was not possible to turn the -CH2-NTs-CH2- and the 1,8-naphtalenediyl-based bisphenols into the corresponding phosphoric acids. But the 1,1’-ferrocenediyl-based bisphenol was successfully cyclised into the desired planar chiral phosphoric acid. Subsequently a synthetic pathway allowing an easy variation of the aryl substituents has been developed together with the use of a chiral auxiliary to obtain the planar CPAs in an enantiopure way. By this method 6 different CPAs have been synthesised. The efficiency in asymmetric organocatalysis of these new planar CPAs was investigated. The reduction of 2-substituted quinolines by Hantzsch esters was used as a benchmark reaction. After having identified the best CPA, the role of the Hantzsch ester has been investigated leading to an important improvement of the enantioselectivity of the reaction. Eventually, the scope of the reaction has been explored and e.e.’s up to 92% have been reached. Some other structural modifications of the structure can be made such as the replacement of the 1,1’-ferrocenediyl unit by a 1,8-dibromobiphenylenyl. A non-negligible influence of the tether has been observed on the catalyst behaviour. The study has demonstrated the potential of this new class of organocatalyst in asymmetric catalysis. These planar CPAs will then be used in the developpement of new énantiosélective reaction in the domain of organocatalysis or in the domain of organometallic catalysis by using the phosphate as a chiral counter-ion

Catalyse

Organocatalyse

Catalyse asymétrique

Acides de Brønsted

Acides phosphoriques

Ferrocène

Paracyclophane

Chiralité planaire

Réduction de quinoléines

Ester de Hantzsch

Catalysis

Organocatalysis

Asymetric catalysis

Brønsted acids

Phosphoric acids

Ferrocene

Paracyclophane

Planar chirality

Quinolines reduction

Hantzsch ester

Activité et stabilité de phases sulfures pour l’hydrotraitement d’huiles végétales / Activity and stability of sulfur catalytic phases for hydrotreating of vegetable oils

Ruinart de Brimont, Mathias

13 October 2011

En combinant expérimentations et calculs ab initio, nous proposons une étude rationnelle des mécanismes de désoxygénation de molécules modèles pertinentes (heptanoate d'éthyle et heptanal) afin de fournir des guides pour définir des systèmes catalytiques optimaux pour l'hydrotraitement de matières premières renouvelables (huiles végétales, graisses animales). L'hydrotraitement d'huiles végétales, par la réaction de désoxygénation, est une voie alternative à la transestérification et peut être envisagée pour obtenir une base gazole de haute qualité. La transformation des composés oxygénés modèles a été étudiée sous une pression totale de 1.5 MPa, à une température de 523 K, dans un réacteur à lit fixe en présence de différents sulfures de métaux de transition massiques (SMT). Cette étude a mis en évidence l'influence de la nature phase sulfure sur la sélectivité des voies de désoxygénation (hydrodésoxygénation (HDO) et/ou décarbonylation/ décarboxylation (DCO)) ainsi que la réactivité particulière du sulfure de rhodium lors de la transformation de l'heptanoate d'éthyle. À l'inverse, quelle que soit la phase sulfure utilisée, la transformation de l'heptanal suit principalement la voie HDO. Dans nos conditions réactionnelles, l'heptanal a été identifié comme un intermédiaire de cette voie de désoxygénation. L'effet promoteur du cobalt et du nickel sur l'activité du sulfure de molybdène monométallique a été observé lors de la transformation de l'heptanal. La relation entre les activités en désoxygénation et en HDO et l'énergie de liaison métal-soufre (E(MS)) calculée ab initio des solides suit une courbe en volcan. Le sulfure mixte NiMoS (0.43), qui présente une E(MS) intermédiaire (127 kJ.mol-1), est le SMT le plus actif pour les deux réactions. Le catalyseur bimétallique CoMoS (0.1) présente la sélectivité HDO/DCO la plus élevée. À l'aide des résultats catalytiques et de calculs ab initio, deux mécanismes réactionnels sont proposés pour les voies de réactions HDO et DCO / By combining well defined experiments and density functional theory (DFT) calculations, we propose a rational understanding of the deoxygenation mechanisms of relevant oxygenate molecules (ethyl heptanoate and heptanal) so as to provide guides to define optimal catalytic systems for the hydrotreating of renewable feedstocks (vegetable oils, animals fats). The hydrotreatment of vegetable oils, with the deoxygenation reaction, is an alternative route to transesterification and can be used to obtain high quality diesel. The transformation of oxygenated model compounds was studied under a total pressure of 1.5 MPa, at 523 K, in a fixed bed reactor over various unsupported transition metal sulfide catalytic phases (TMS). Results have shown the influence of the sulfide phase on the selectivity for deoxygenation reaction (hydrodeoxygenation (HDO) and/or decarbonylation/ decarboxylation (DCO)) and the specific reactivity of the rhodium sulfide for the transformation of ethyl heptanoate. The study of the transformation of heptanal shows the reaction of deoxygenation is preferentially following the HDO pathway over all the catalysts. In our reaction conditions, heptanal was identified as a reaction intermediate of this deoxygenation pathway. The promoting effect of cobalt and nickel on the activity of monometallic molybdenum sulphide was observed for the transformation of heptanal. The relation between the deoxygenation and HDO rates and the ab initio calculated sulphur-metal bond energy E(MS) in the bulk TMS is following a volcano curve. Bimetallic sulfide NiMoS (0.43), with an intermediate E(MS) (127 kJ.mol-1), is found as the most active TMS for both reactions. The maximum of the HDO/DCO selectivity is obtained for the mixed catalyst CoMoS (0.1). Thanks to catalytic results and ab initio calculations, two reaction pathways are proposed for HDO and DCO reactions

Désoxygénation

Hydrodésoxygénation

Décarbonylation

Ester

Sulfures de métaux de transition

Théorie fonctionnelle de la densité

Énergie de liaison métal-soufre

Deoxygenation

Hydrodeoxygenation

Decarbonylation

Ester

Transition metal sulphide catalysts

Density functional theory

Metal-sulfur bond energy

547.215